Device Manager Menus

UPS Status Options continued

Input voltage

All UPS models report the input voltage and frequency. A Silcon

 

DP300E series UPS, which identifies the input voltage values for all

 

three phases, also reports the current (amperage) provided by the input

 

voltage.

 

 

Note: In the Control Console, use the Detailed UPS Information

 

option to access the Minimum and Maximum Input Voltage

 

status for a Symmetra Power Array or Silcon DP300E series

 

UPS.

 

 

 

 

 

Status Field

Definition

 

 

 

 

Input Voltage

The AC voltage (VAC) being input to the UPS.

 

 

 

 

Input Frequency

The input voltage’s frequency, in Hertz (Hz).

 

 

Note: In the Control Console for Smart-UPS or Matrix-UPS,

 

 

the Operating Frequency field reports the frequency

 

 

value shared by the input and output voltages.

 

 

 

 

Maximum Line

The highest AC voltage input to the UPS during the previous

 

Voltage

minute of operation.

 

 

 

 

Minimum Line

The lowest AC voltage input to the UPS during the previous

 

Voltage

minute of operation.

 

 

 

 

Input Current

How much current is being supplied by the input voltage.

 

(Silcon DP300E

 

 

series UPS only)

 

 

 

 

 

 

Continued on next page

Web/SNMP Management SmartSlot Card User’s Guide

36

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Image 36
APC AP9606 manual Voltage, Status for a Symmetra Power Array or Silcon DP300E series, Status Field Definition

AP9606 specifications

The APC AP9606 is a sophisticated environmental monitoring device designed to enhance the functionality and efficiency of data centers and critical IT environments. As part of APC’s suite of infrastructure solutions, the AP9606 is primarily aimed at monitoring conditions in rack-mounted and remote locations. By implementing advanced features and technologies, it ensures that environmental conditions remain optimal to prevent equipment failure and provide high availability for business operations.

One of the main features of the AP9606 is its ability to monitor and report various environmental factors including temperature, humidity, and other critical conditions. This real-time monitoring capability allows IT managers to react promptly to changing environmental variables which can significantly impact server and equipment performance. The device can be connected to a multitude of sensors, enabling users to customize their monitoring setups depending on specific requirements.

The AP9606 utilizes SNMP (Simple Network Management Protocol) for seamless integration with existing network management systems. This protocol allows easy communication between the device and other network elements, further enabling IT departments to consolidate and manage their infrastructure efficiently. Additionally, support for web-based interfaces gives users the flexibility to access real-time data from virtually anywhere, facilitating remote management capabilities which are crucial for businesses with multiple locations.

In terms of connectivity, the AP9606 is equipped with multiple ports, including an Ethernet port for network connection and optional serial ports for connecting with compatible devices. The inclusion of both wired and wireless options ensures that the device can adapt to various network environments, making it particularly versatile.

One of the standout characteristics of the APC AP9606 is its scalability. As businesses evolve, so do their monitoring needs. The AP9606 can be easily expanded with additional sensor modules, allowing businesses to grow their monitoring capabilities without needing entirely new systems. This flexibility makes it a cost-effective solution in the long run.

In summary, the APC AP9606 environmental monitoring device stands out due to its comprehensive monitoring features, robust connectivity options, and scalability. It is particularly well-suited for data centers and critical infrastructure environments where maintaining optimal conditions is essential. By investing in the AP9606, businesses can ensure they are proactively managing their IT assets, ultimately leading to improved operational performance and reduced risk of equipment failure.