Search company, investor...
Camfridge company logo


Founded Year



Angel | Alive

Total Raised


Last Raised

$800K | 6 yrs ago

About Camfridge

Camfridge develops energy-efficient, gas-free, lower-cost technology for refrigeration appliances.

Headquarters Location

Unit B1, Copley Hill Business Park Cambridge Road, Babraham

Cambridge, England, CB22 3GN,

United Kingdom

+44 1223 834860

Compete with Camfridge?

Ensure that your company and products are accurately represented on our platform.

Camfridge Patents

Camfridge has filed 3 patents.

The 3 most popular patent topics include:

  • Cooling technology
  • Energy conversion
  • Heat pumps
patents chart

Application Date

Grant Date


Related Topics




Thermodynamics, Cooling technology, Thermodynamic cycles, Energy conversion, Heat pumps


Application Date


Grant Date



Related Topics

Thermodynamics, Cooling technology, Thermodynamic cycles, Energy conversion, Heat pumps



Latest Camfridge News

Worldwide Magnetic Refrigeration Industry to 2026 - Players Include Whirlpool, Camfridge & Samsung Electronics Among Others

Jan 14, 2021

| Source: Research and Markets The report on the global magnetic refrigeration market provides qualitative and quantitative analysis for the period from 2018 to 2026. The report predicts the global magnetic refrigeration market to grow with a CAGR of 104.5% over the forecast period from 2020-2026. The study on magnetic refrigeration market covers the analysis of the leading geographies such as North America, Europe, Asia-Pacific, and RoW for the period of 2018 to 2026. The report on magnetic refrigeration market is a comprehensive study and presentation of drivers, restraints, opportunities, demand factors, market size, forecasts, and trends in the global magnetic refrigeration market over the period of 2018 to 2026. Moreover, the report is a collective presentation of primary and secondary research findings. Porter's five forces model in the report provides insights into the competitive rivalry, supplier and buyer positions in the market and opportunities for the new entrants in the global magnetic refrigeration market over the period of 2018 to 2026. Further, Growth Matrix gave in the report brings an insight into the investment areas that existing or new market players can consider. Research Methodology A) Primary Research The primary research involves extensive interviews and analysis of the opinions provided by the primary respondents. The primary research starts with identifying and approaching the primary respondents, the primary respondents are approached include 1. Key Opinion Leaders 3. Professionals and participants from the industry The primary research respondents typically include 1. Executives working with leading companies in the market under review 2. Product/brand/marketing managers B) Secondary Research Secondary research involves extensive exploring through the secondary sources of information available in both the public domain and paid sources. Each research study is based on over 500 hours of secondary research accompanied by primary research. The information obtained through the secondary sources is validated through the crosscheck on various data sources. The secondary sources of the data typically include 1. Company reports and publications 2. Government/institutional publications 4. Databases such as WTO, OECD, World Bank, and among others. 5. Websites and publications by research agencies Segment Covered The Global Magnetic Refrigeration Market by Product Heat Pumps What does this Report Deliver? 1. Comprehensive analysis of the global as well as regional markets of the magnetic refrigeration market . 2. Complete coverage of all the segments in the magnetic refrigeration market to analyze the trends, developments in the global market and forecast of market size up to 2026. 3. Comprehensive analysis of the companies operating in the global magnetic refrigeration market . The company profile includes analysis of product portfolio, revenue, SWOT analysis and latest developments of the company. 4. Growth Matrix presents an analysis of the product segments and geographies that market players should focus to invest, consolidate, expand and/or diversify. Key Topics Covered:

Camfridge Frequently Asked Questions (FAQ)

  • When was Camfridge founded?

    Camfridge was founded in 2003.

  • Where is Camfridge's headquarters?

    Camfridge's headquarters is located at Unit B1, Copley Hill Business Park, Cambridge.

  • What is Camfridge's latest funding round?

    Camfridge's latest funding round is Angel.

  • How much did Camfridge raise?

    Camfridge raised a total of $800K.

  • Who are the investors of Camfridge?

    Investors of Camfridge include SyndicateRoom.

  • Who are Camfridge's competitors?

    Competitors of Camfridge include Encycle, Lucid Design Group, Outsmart Power Systems, Alert Me, SynapSense and 13 more.

Compare Camfridge to Competitors


Nemometrics is a company that received a STTR Phase II grant for a project entitled: Nonintrusive Electrical Monitor (NEMO). Their project will develop and qualify a Non-Intrusive Electrical Monitor product (NEMO) to provide inexpensive, accurate, in depth monitoring of electrical usage, permit expanded energy savings and provide additional information, like potential equipment faults and failures. NEMO increases the amounts and kinds of diagnostic information that can be gleaned from a single set of electrical measurements, thus lowering the cost of monitoring building energy management systems. By analyzing the transient signatures produced when different electrical equipment draws power, NEMO can identify which of multiple loads turn on and off and assess their condition. The objectives of the research are to determine: the reliability of NEMO algorithms in the presence of multiple loads, prioritize several possible diagnostic analyses for the commercial product, and maximize the automation of NEMO data analysis while minimizing the need for human scrutiny and intervention. Phase I demonstrated the value of NEMO systems in monitoring and diagnostics with air conditioning units. The Phase II research plan calls for continuing the development work and installation of a qualified prototype in commercial buildings. Data analysis will reveal inefficiencies in building operation and effectiveness of the algorithms themselves. This project will develop a system for non-intrusive detection and identification of multiple electrical loads with major energy conservation and other benefits. Time of use data can be used to create new automated algorithms that minimize energy use and optimize heating, ventilation, and air conditioning system operation without affecting occupant comfort, while electrical health diagnostics can signal when a motor is nearing failure or a valve has jammed. A reduction in the cost of in-depth monitoring allows more commercial facilities to reap energy and maintenance savings from these algorithms and the NEMO product that contains them. Actual measurement rather than estimation of initial and ongoing electrical power consumption of electrical equipment within a commercial building enables verification of upgrade performance. It also facilitates design and operation of intelligent, energy efficient buildings and assists in attaining Leadership in Energy Efficient Design (LEEDTM) certification. By promoting energy efficiency in buildings, NEMO will enable customers to reduce their energy costs, reduce or eliminated unscheduled maintenance and increase profitability.

Clarian Technologies

Starting with automated transit systems (subway, ART system, monorail, people movers, etc.), Clarian has developed technologies to provide real-time optimization of energy consumption using rate control and power modulation technologies that supplement existing safety-critical onboard and wayside ATC controls as well enable presence-awareness in vehicles so that they can operate in unison, rather than autonomously as they do today. These capabilities in turn create broader network energy efficiencies, smoother ride and reduced wear and tear, increased capacity, and reduced rolling stock and power infrastructure requirements.As part of its research and development efforts, Clarian has developed a suite of energy modeling and simulation tools. These tools can be used by transit agencies and/or system operators as part of either the design process or operational configuration to optimize or re-configure existing operations to begin realizing immediate energy cost-savings.

GeoGenix Logo

GeoGenix is a dynamic company able to quickly adapt to new energy technologies. The company's goal is to establish awareness with the company's corporate and residential customers as to the many benefits of living an energy efficient lifestyle. The company believe in doing what should be considered right for the environment through design and energy conservation methods.

Encycle Logo

Encycle, formerly REGEN, provides an Energy as a Service by Encycle (EASE) solution that maximizes the performance of RTUs to save commercial and industrial companies money while reducing their carbon footprint. Based on patented Swarm Logic technology, Encycle's platform uses biomimicry techniques to reduce HVAC energy costs, participate in Demand Response programs, and gain valuable insight into RTU performance. EASE is simple and easy to install, optionally integrates with leading IoT solutions, and delivers ROIs that far exceed most solar, storage and lighting initiatives.


Hexaformer's technology aims to make it possible to manufacture closed symmetrical delta shaped transformer cores. Per the company, it does this by winding the transformer core instead of stacking sheets of metal. The benefits according to the company of this design to transformers include: a lower load loss, lighter, smaller volume, less vibrations, less noise, smaller electromagnetic stray fields, lower inrush current, and no third harmonic. The same type of technology is also used in the Hexaformer reactors for phase compensation. These cores are also wound to a triangular shape on which three coils are mounted to make the solutions small, yet efficient. The benefits per Hexaformer of this transformer technology include reducing the losses in the electricity grid as well as lowering the cost of operation and maintenance by 5% to 15% compared to traditional transformers.

Project Frog Logo
Project Frog

Project Frog designs, manufactures and delivers technologically-advanced component buildings that assemble onsite, giving architects and builders a fast and cost-effective way to create highly functional, beautiful and energy-efficient buildings adaptable for a variety of commercial applications including education, government, healthcare, and retail. FROG stands for Flexible Response to Ongoing Growth.

Discover the right solution for your team

The CB Insights tech market intelligence platform analyzes millions of data points on vendors, products, partnerships, and patents to help your team find their next technology solution.

Request a demo

CBI websites generally use certain cookies to enable better interactions with our sites and services. Use of these cookies, which may be stored on your device, permits us to improve and customize your experience. You can read more about your cookie choices at our privacy policy here. By continuing to use this site you are consenting to these choices.