STULZ worldwide

CyberAir Mini CW

Precision server room air conditioning for small to medium heat loads

CyberAir Mini is an energy-efficient and noise-optimized unit series for small to medium heat loads. These modern and maintenance-friendly units require only a small footprint and can be easily installed in existing server rooms thanks to their compact dimensions.

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Product Overview

At a glance Benefits Features Technical Data

Most important benefits

  • Maximum cooling capacity with a minimal footprint
  • Server room air conditioner enables high energy savings thanks to EC technology and the largest possible heat exchanger and filter surfaces
  • Low noise emissions thanks to optimized unit design and EC fans

Most important features

  • Available in 4 sizes

Most important technical data

  • Cooling capacity (kW): 9 – 35
  • Cooling system: CW
  • Maximum cooling capacity with a minimal footprint
  • Server room air conditioner enables high energy savings thanks to EC technology and the largest possible heat exchanger and filter surfaces
  • Reliability and long service life with continuous operation 24/7, 365 days a year
  • Intuitive handling of the STULZ controller thanks to clear menu navigation and optional touch display
  • Low noise emissions thanks to optimized unit design and EC fans
  • Fast and easy installation and maintenance with sales and service partners in over 140 countries
  • Available in 4 sizes
  • Units in Downflow and Upflow
  • Different filter classes available
  • Several heating options
  • Filter control management
  • Compatible with all common BMS protocols
  • Optional humidification
Cooling capacity (kW) 9 – 35
Airflow (m3/h) 2,800 - 9,200
Sizes 4
Air conduction Upflow, Downflow as well as various intake and exhaust options
Cooling system Chilled water system CW

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All details about CyberAir Mini CW

MiniSpace becomes CyberAir Mini

With our MiniSpace series, we have introduced a system worldwide that reliably air conditions rooms with high thermal loads. In further developing and integrating the MiniSpace in the CyberAir series, the aim was to provide even greater flexibility and user friendliness with the new model. CyberAir Mini is engineered for various mission-critical applications and therefore reliably and economically air conditions small server and equipment rooms, and rooms containing the UPS and batteries.

MiniSpace becomes CyberAir Mini

Precision and comfort air conditioners compared

Precision air-conditioning systems capable of regulating room temperature accurately were developed for equipment rooms. However, often comfort air conditioners are used there. Learn more about the reasons for better using a precision air-conditioning unit:

 

High sensible cooling capacity = Low operating costs?

The sensible part of the cooling capacity reduces the temperature, while the latent part dehumidifies the air. Comfort air conditioning units can use up to 50% of their energy for dehumidification, whereas precision units convert more than 95% of the energy used exclusively into cooling capacity. The technology required to achieve this pays off quickly in terms of lower operating costs.

Precision vs. Comfort CyberAir Mini CW

Air Distribution, Heat Dissipation and Filtration

Precision air conditioning units from STULZ filter and circulate three times the amount of air as comfort units with the same rated capacity. They reliably dissipate isolated thermal loads even from distant corners of the room, while continuously monitoring and precisely controlling the temperature and air filtration.

Air Distribution, Heat Dissipation and Filtration CyberAir Mini CW

Controlled Temperatures

Information and communication technology only works reliably and without faults within a relatively narrow temperature range. STULZ precision air conditioning units ensure optimum temperature accuracy with maximum tolerances of +/- 1 °C, while comfort units can normally deviate from the set value by as much as +/- 3 °C.

Controlled Temperatures CyberAir Mini CW

Controlled Humidity

Unlike comfort air conditioning units, precision units feature strictly controlled and accurate dehumidification (tolerance +/- 5% relative humidity), as too much humidity can lead to condensation and corrosion, while too little can cause static charges, data loss and damage to hardware.

Controlled humidity CyberAir Mini CW

Excellent Reliability

Comfort air conditioning units mainly operate in summer and only for a few hours each day. By contrast, precision units need to be available whenever the electronic equipment to be cooled is in operation. For most server room cooling systems, this is the case for 24 hours a day, 365 days a year.

This is why STULZ makes such high demands on the quality of their precision server room cooling units and is able to offer high availability systems with 99.999 % reliability.

Excellent reliability CyberAir Mini CW

Related Article

Server cooling: Return air and room air conditioners compared

Learn more about the differences, advantages and disadvantages of comfort and precision air conditioning in data centers.

Click here to read the full article

Related Article CyberAir Mini CW

Optimized unit design: small footprint and long service life

With their compact dimensions and four sizes, the CyberAir Mini CW offers diverse installation options to make optimum and flexible use of your room space.

Optimized unit design CyberAir Mini CW

Climate. Customized.

From standard units to fully customized solutions

The ability to offer such a wide range to customers is the embodiment of our philosophy, "Climate. Customized.". Size, design, air conduction, system or control: CyberAir Mini is a model of adaptability and the room air conditioners can be precisely adapted to your individual requirements. In addition, a variety of options and equipment versions are available to achieve the optimum result.

Learn more about Climate. Customized.

Climate. Customized. CyberAir Mini CW

Types of air discharge

The modern design of the CyberAir Mini units not only enables accurate air flow with low pressure losses but also maximum flexibility. Different types of air discharge (Upflow and Downflow) are available, as well as various intake and exhaust options. 

 

Upflow and Downflow

CyberAir Mini CW Upflow

Upflow

CyberAir Mini CW Downflow

Downflow

Intake and exhaust options

Outlet left

CyberAir Mini CW outlet left

Outlet left, front

CyberAir Mini CW outlet left front

Outlet left, right, front

CyberAir Mini CW outlet left right front

EC technology

Better energy efficiency thanks to EC technology

  • High motor efficiency reaping obvious savings in running costs
  • Quiet running
  • Long life
  • Maintenance-free
  • Adjustment to the given conditions with pinpoint precision
CyberAir Mini CW EC fan

Chilled water system (CW)

Units with a chilled water system manage without a refrigerant circuit of their own, but require a separate chilled water generator. The room air conveyed by the fan flows through the direct cooling unit, which transfers heat to the water/glycol mixture. A chiller removes the heat from this water/glycol mixture. The air conditioning unit and chiller are connected to one another by a closed water/glycol circuit.

CyberAir Mini CW Chilled water system

Control and monitoring

Thanks to its flexible and precise control of temperature and humidity, CyberAir Mini ensures maximum reliability during continuous operation 24/7, 365 days a year. In addition, to achieve the highest standards of reliability and usability, STULZ develops the controller in-house, ensuring that software, hardware and air conditioning units are perfectly harmonized. An optional touch display provides clear menu navigation and intuitive operation of the controller.

 

Other benefits:

  • Project-specific software development and optimization
  • Compatible with all common BMS protocols
  • Several air conditioning units can be operated in parallel across machines
  • Access control via different user levels
  • Differentiated warning and alarm system
  • Integrated standby management and emergency mode
  • Filter control management
CyberAir Mini CW Control and monitoring

Options

The variety of options and possible equipment enables you to perfectly adapt STULZ units to your requirements.

  • Differential pressure independent control valve for energy-efficient pump operation
  • Various installation and air conduction options
  • Different filter classes available
  • Several heating options
  • Humidification
  • Free Cooling plenum for maximum energy efficiency
Options CyberAir Mini CW

Service and maintenance

  • Fast installation due to easy-to-reach connection points
  • Maintenance-friendly: all components requiring maintenance can be accessed from the front
  • Preventive maintenance
  • Fast service response times
  • Trained and experienced sales and service partners in over 140 countries.

Locations worldwide

 

CyberAir Mini CW Service and maintenance
CyberAir Mini CW Service and maintenance
CyberAir Mini CW Service and maintenance

Test Center

In our state-of-the-art, 700-square-meter Test Center with its various climate chambers, we can perform a variety of tests on precision air conditioning units and chillers. During the development of the CyberAir Mini, we were able to test and optimize it under all climatic conditions encountered around the world.

In addition, we offer you the opportunity to book a witness test in our Test Center. This allows you to have the desired air conditioning system tested according to your exact specifications, creating transparency and providing you with information about your system’s performance and energy consumption.

Read more about our Test Centers

Test Center CyberAir Mini CW

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Åland Afghanistan Albania Algeria American Samoa Andorra Angola Anguilla Antarctica Antigua and Barbuda Argentina Armenia Aruba Australia Austria Azerbaijan Bahrain Bangladesh Barbados Belarus Belgium Belize Benin Bermuda Bhutan Bolivia Bonaire, Sint Eustatius and Saba Bosnia and Herzegovina Botswana Bouvet Island Brazil British Indian Ocean Territory British Virgin Islands Brunei Bulgaria Burkina Faso Burundi Cambodia Cameroon Canada Cape Verde Cayman Islands Central African Republic Chad Chile China Christmas Island Cocos (Keeling) Islands Colombia Comoros Congo Congo-Brazzaville Cook Islands Costa Rica Croatia Cuba Curaçao Cyprus Czech Republic Côte d’Ivoire Denmark Djibouti Dominica Dominican Republic Ecuador Egypt El Salvador Equatorial Guinea Eritrea Estonia Eswatini Ethiopia Falkland Islands Faroes Fiji Finland France French Guiana French Polynesia French Southern Territories Gabon Gambia Georgia Germany Ghana Gibraltar Greece Greenland Grenada Guadeloupe Guam Guatemala Guernsey Guinea Guinea-Bissau Guyana Haiti Heard Island and McDonald Islands Honduras Hong Kong SAR of China Hungary Iceland India Indonesia Iran Iraq Ireland Isle of Man Israel Italy Jamaica Japan Jersey Jordan Kazakhstan Kenya Kiribati Kosovo Kuwait Kyrgyzstan Laos Latvia Lebanon Lesotho Liberia Libya Liechtenstein Lithuania Luxembourg Macao SAR of China Madagascar Malawi Malaysia Maldives Mali Malta Marshall Islands Martinique Mauritania Mauritius Mayotte Mexico Micronesia Moldova Monaco Mongolia Montenegro Montserrat Morocco Mozambique Myanmar Namibia Nauru Nepal Netherlands New Caledonia New Zealand Nicaragua Niger Nigeria Niue Norfolk Island Northern Marianas North Korea North Macedonia Norway Oman Pakistan Palau Palestine Panama Papua New Guinea Paraguay Peru Philippines Pitcairn Islands Poland Portugal Puerto Rico Qatar Reunion Romania Russia Rwanda Saint Barthélemy Saint Helena, Ascension and Tristan da Cunha Saint Kitts and Nevis Saint Lucia Saint Martin Saint Pierre and Miquelon Saint Vincent and the Grenadines Samoa San Marino Saudi Arabia Senegal Serbia Seychelles Sierra Leone Singapore Sint Maarten Slovakia Slovenia Solomon Islands Somalia South Africa South Georgia and the South Sandwich Islands South Korea South Sudan Spain Sri Lanka Sudan Suriname Svalbard Sweden Switzerland Syria São Tomé e Príncipe Taiwan Tajikistan Tanzania Thailand The Bahamas Timor-Leste Togo Tokelau Tonga Trinidad and Tobago Tunisia Turkey Turkmenistan Turks and Caicos Islands Tuvalu Uganda Ukraine United Arab Emirates United Kingdom United States United States Minor Outlying Islands Uruguay US Virgin Islands Uzbekistan Vanuatu Vatican City Venezuela Vietnam Wallis and Futuna Western Sahara Yemen Zambia Zimbabwe
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