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Technical data

Honeywell

 

 

 

4.3Technical data

Mains

connection

Motor connection

Control

characteristics

Ambient conditions

Input voltage Uin

380 - 500V, -15%...+10% 3~

 

208…240V, -15%...+10% 3~

 

208…240V, -15%...+10% 1~

Input frequency

45…66 Hz

Connection to mains

Once per minute or less (normal case)

Output voltage

0—Uin

Continuous output

IL: Ambient peak temperature max. +45°C (with 24h

current

average ambient +40°C),*

 

overload 1.1 x IL (1min/10min)

 

IH: Ambient temperature max. +50ºC,

 

overload 1.5 x IH (1min/10min)

Starting torque

150% (Low overload); 200% (High overload)

Starting current

2 x IH 2 seconds every 20 seconds, if output frequency

 

<30Hz

 

and temperature of heatsink <+60ºC

Output frequency

0…320 Hz

Frequency resolution

0,01 Hz

Control method

Frequency Control U/f

 

Open Loop Sensorless Vector Control

 

 

Switching frequency

1...16 kHz; Factory default 6 kHz

(See parameter 2.6.8)

 

Frequency reference

 

Analogue input

Resolution 0.1% (10bit), accuracy ±1%

Keypad reference

Resolution 0.01 Hz

Field weakening point

30…320 Hz

Acceleration time

0.1…3000 sec

Deceleration time

0.1…3000 sec

Braking torque

DC-brake: 30%*TN (without brake option)

Ambient operating

–10°C (no frost)…+45°C: IL

temperature

(ambient temperature derating 1,5%/Cº)

 

–10°C (no frost)…+50°C: IH

Storage temperature

–40°C…+70°C

Relative humidity

0…95% RH, non-condensing, non-corrosive,

 

no dripping water

Air quality:

 

- chemical vapours

IEC 721-3-3, unit in operation, class 3C2

- mechanical particles

IEC 721-3-3, unit in operation, class 3S2

Altitude

100% load capacity (no derating) up to 1000m

 

1-% derating for each 100m above 1000m; max. 3000m

Vibration:

5...150 Hz

EN50178/EN60068-2-6

Displacement amplitude 1(peak) mm at 5...15.8 Hz

 

Max acceleration amplitude 1 G at 15.8...150 Hz

Shock

UPS Drop Test (for applicable UPS weights)

EN50178, IEC 68-2-27

Storage and shipping: max 15 G, 11 ms (in package)

Enclosure class

IP20; MF2 and MF3. IP21/IP54; MF4 – MF6

Technical data (continues on next page)

* In NXL Compact the maximum ambient operation temperature is +40°C. (+45°C only applies to NXL HVAC)

4

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Honeywell NXL user manual Technical data Honeywell

NXL specifications

Honeywell NXL is an advanced building management system designed to optimize the efficiency of HVAC, lighting, and security systems within commercial buildings. It incorporates cutting-edge technologies to enhance operational performance, improve energy savings, and provide a comfortable environment for occupants.

One of the standout features of Honeywell NXL is its integration capabilities. The system allows seamless connections between various subsystems, facilitating a unified approach to building management. This interoperability means that data from different systems can be aggregated, analyzed, and applied to enhance overall building performance.

The Honeywell NXL employs a user-friendly interface that empowers facility managers to easily navigate through critical information. The intuitive dashboard offers real-time analytics and visualizations, providing insights into energy consumption, system performance, and occupant comfort. Users can quickly identify inefficiencies and make informed decisions to improve operational effectiveness.

In terms of technologies, Honeywell NXL utilizes IoT connectivity, which enables devices and systems within the building to communicate with one another. This connectivity allows for remote monitoring and control, which is essential for effective facility management. By leveraging IoT technology, facility managers can receive alerts, conduct diagnostics, and perform maintenance proactively, reducing equipment downtime and avoiding costly repairs.

Another significant characteristic of the Honeywell NXL is its robust data analysis capabilities. The system collects vast amounts of data from sensors and connected devices, which is then processed to identify patterns and trends. This analytical approach not only aids in energy management but also enhances occupant comfort by adjusting parameters in real-time based on occupancy and environmental conditions.

Energy management is a critical issue for modern buildings, and Honeywell NXL addresses this with advanced optimization strategies. The system can implement demand response capabilities, adjusting energy usage based on peak periods or grid demands, ultimately saving costs and reducing environmental impact.

Moreover, Honeywell NXL places a strong emphasis on security features. Its design includes integrated surveillance and access control systems, ensuring the safety of occupants while facilitating efficient access management.

In summary, Honeywell NXL is a comprehensive building management solution that combines user-friendly design, IoT connectivity, advanced data analytics, energy optimization, and enhanced security features. Its ability to integrate various building systems makes it an essential tool for contemporary facility management, promoting efficiency and sustainability in building operations.