Lyra Power Hub AI and cloud based power monitoring, Control, Stand-by Energy management

LYRA Power hub - Control your devices at home and at work by speaking!

It is easier to control or get information by speaking with the support of Artificial Intelligence instead of pressing the phone buttons while on the move due to mobile life.

Lyra Power Hub: Combine Energy Management with Geographic Precision! 

Do you have a large network? Do you have offices in different cities, a campus with multiple buildings, or do you want separate control for each room of your home? With Lyra Power Hub's advanced web server and localization capabilities, move power exactly where you need it!

Now manage not only devices, but also their location. With Lyra Power Hub's intuitive interface, you can:

• Country, City, Region: Easily separate and manage your socket groups across different geographic locations.
• Building and Floor: In facilities with multiple buildings or floors, label each Lyra Power Hub according to its physical location.
• Room Level Control: In your home or office, group your sockets according to specific areas such as "Living Room", "Kitchen", "Meeting Room".

Thanks to this smart localization feature:

• Reduce Complexity: Clearly view and manage hundreds of outlets in a complex tree structure from a single screen.
• Rapid Response: In case of any alarm or while reviewing energy data, instantly identify which device and which location the problem or data is coming from..
• Customized Scenarios: Create location-based automation scenarios such as "Turn Off Air Conditioners in Ankara Office", "Check Fans in Server Room on 3rd Floor".
• Advanced Reporting: Get detailed energy consumption reports not only by device, but also by location (city, building, room) so you can make smarter decisions.

With Lyra Power Hub you don't just manage power, you also localize and optimize it. Whether it's a global network or a single home, Lyra Power Hub takes energy control to the next level!

Application Examples

Lyra Power Hub has a wide range of uses in all areas where energy efficiency, remote control, environmental monitoring and reliable power distribution are required.

1. Banks, Server Rooms, IT departments::

• System Integration: It is used to measure and control the energy consumption of devices such as computers, printers, scanners, routers and switches in banks with many branches or in server systems.

2. Home and Office Environments:

• Smart Home Integration: By being included in smart home systems, it enables remote control and timing of devices such as lights, chargers, and small household appliances in the home.
• Energy Saving: It optimizes energy consumption by preventing devices from being left on unnecessarily. It can automatically turn off devices or put them into sleep mode at certain times.
• Safety and Comfort: Even when you are on vacation, you can give the impression that someone is home by turning the lights on and off. It offers the flexibility to manage devices from anywhere thanks to remote access.
• Office Productivity: It helps save energy by automatically shutting down equipment such as monitors, printers and computers in offices outside working hours.

3. Small and Medium Enterprises (SMEs):

• Server and Network Equipment Management: It can be used in small server rooms or network cabinets thanks to its 1.5U rack mountability. It is ideal for remotely turning on, off or restarting servers, modems and routers.
• Environmental Monitoring: It monitors the environmental conditions of the server room or a critical area with its internal temperature/humidity sensor input. It provides early warning of potential problems by sending an alarm via SNMP or e-mail in case of limit exceedances.
• Security and Access Control: Authorized access allows only designated users to manage sockets and devices, preventing unauthorized access.
• Energy Consumption Tracking: Businesses can optimize and report on energy costs by monitoring data such as current drawn per outlet and total electricity consumption.

4. Automation and Industrial Applications (Limited Scope):

• Remote Control and Automation: Thanks to its dry contact inputs, it can be used in simple automation scenarios such as fan monitoring and flooding. It can trigger or close sockets in case of limit exceedances.
• Remote Power Management: It can be used to provide power management of critical devices in distributed systems or in areas where remote access is important.
• Industrial Device Monitoring: In small-scale industrial environments, it can be used to monitor the power consumption of specific devices and receive alarms in case of abnormalities.

5. Network Infrastructure and IT Management:

• Remote Power Cycle: It provides the ability to remotely power cycle network equipment or servers without requiring physical intervention when they freeze or experience problems. This is a critical feature for IT administrators.
• SNMP and MQTT Support: Provides easy integration to existing network management systems. Can communicate with central monitoring and management software with SNMPv2 and MQTT support.
• Wake-on-LAN (Sleep Mode Energy Management): The ability to wake up computers over the network allows remote access when needed while saving energy.

You can't control what you can't measure,
You can't manage what you can't control. (Peter Drucker)

Electricity, one of the basic consumption components, is one of the resources of our country that needs to be used better. For this purpose, measurement monitoring and consumption trend analysis are an important first step towards effective energy control.

Within the scope of energy efficiency, energy efficiency is achieved by completely turning off electrical devices such as televisions, printers, computers, monitors, washing machines, etc. that continue to consume energy even when they are turned off. 

How many people can unplug all their devices when leaving work and plug them back in when they come to work? 

How can air conditioners that are left connected to sockets and turned on in schools be turned off?

LYRA is designed for this purpose. It measures the energy profiles of all devices in your home and workplace, monitors them, automatically cuts off all energy by monitoring them during sleep and active use, and saves money without the user noticing this. 

It is often unknown how much each electrical device in your home or workplace consumes, at least it is desired to replace the device that consumes more with the one that consumes less. In addition, it is desired to prevent even a small amount of energy consumption during UNUSED times. 

The number of printers and scanners in a bank with thousands of branches should be monitored, their power consumption and controls should be done.

Creating an Energy Profile and managing it in a way that will save energy, monitoring and controlling devices connected to the Internet, It is suitable for Microgrid network management and provides data for city network planning. It detects the times when the devices are in standby and cuts off all their energy. It is sold by local companies and internationally.

How does LYRA save?. Click on the link.

It provides remote control of electrical devices over the Internet/Intranet, turns on/off electrical devices when necessary, and provides information with alarms over e-mail/MQTT/SNMP.

It allows electrical devices to be controlled at any time of the day with timing functions.

It protects electrical devices and also ensures that they are automatically turned off in case of excessive power consumption.

LYRA calculates the electricity consumption of electrical devices separately and records the consumption of electrical devices. It provides complete control and measurement opportunities in an office where many electrical devices are used. Thus, it allows for collective management via the internet. For example, it turns off devices that are not desired to consume energy from all branches of a bank's headquarters.

The transition from active to sleep mode and load values ​​of a device connected to an outlet (example TV) are shown. All experimental studies have been done by us. This graph shows the power curve of a TV from the moment it is turned on, to full active power and then to sleep mode. While the TV is around 250Watt, it drops to around 30Watt when it goes to sleep mode.

In the graphs below, on the left is the full load, in the middle is the sleep transition energy graph and on the right are the power values ​​during sleep mode. This is an example energy profile and LYRA analyzes this profile for each device connected to an outlet.

In this way, if the device enters sleep mode and does not draw active energy for another 10 minutes, its power will be completely cut off.