Supercharge your
product or prototype by working with Conductive Transfers
Supercharge your product
or prototype by working with Conductive Transfers
From prototype to production -
we understand that the development of a new product
can be complex
SERVICES
That's why we offer service that guides our clients through each step of the process, from discovery to delivery. Our expertise in print innovation helps us to create the best product possible.
From prototype to production - we understand that the development
of a new product
can be complex
SERVICES
That's why we offer service that guides our clients through each step of the process, from discovery to delivery. Our expertise in engineering and print innovation helps us to create the best product possible.
From prototype to production -
we understand that the development
of a new product can be complex
SERVICES
That's why we offer service that guides our clients through each step of the process, from discovery to delivery. Our expertise in engineering and print innovation helps us to create the best product possible.
We can support you with design, technology or R & D. We will estimate the number of hours our team should spend on the project, the cost of materials as well as any foreseen subcontractor work.
Support Lab
Conductive Transfers will work closely with your team to design, manufacture, assemble and test smart circuits for your proof of concept or prototype. We have successfully delivered numerous prototype projects and have experience of working with customers globally from the medical, automotive and wearable markets.
Prototype
Our Instron Universal column tester and a Keysight LCR meter, allow simultaneous capture of a smart circuit’s mechanical properties, such as tensile strain and electrical parameters, highlighting resistance for reliability engineering and product lifetime analysis. Conductive Transfers provide wash testing on the circuits to ISO standard using a wascator machine.
Testing
Our modern 1100m2 UK facility has a production cylinder screen printing line, that can produce sheets up to 100cm x 70cm. We complement this with our in-house circuit design, screen preparation facilities including an optical direct write system, sophisticated test equipment and a selection of heat presses. Our experienced team of eight, have a wealth of experience of printing and electronics.
Production & Supply
In addition to providing full production, we offer a solution for our clients to cost effectively manage production of our technologies, in their own facility or via a nominated partner. Conductive Transfers will licence its patents, knowhow and trademarks directly with our client and/or sub-license to their manufacturing partner. We will also support your team or partner, by providing a comprehensive technology transfer package, complete with training on our unique process.
Licencing
We also benefit from strong supplier relationships for functional inks, consumables and equipment. This will cover both equipment and process requirements globally and here in the UK.
Technology Transfer
Supply of inks and consumables from CT and our partners.
Product Supply
TECHNOLOGIES
Take a look at some of Conductive Transfers technologies
Our unique range of technologies
is primarily aimed at MedTech, sensors, wearables,
and automotive sectors
ElastaTrode™
ElastaTrode™ is a printed circuit technology designed for smart textiles. Conductive Transfers has manufactured ElastaTrode™ circuits for the medical smart garment Innovo. This FDA and CE approved compression garment, is used to treat urinary incontinence. The technology is suitable for a wide range of smart textile applications, including electrical muscle stimulation, transcutaneous electrical nerve stimulation and medical sensing applications, including ECG, EMG and EEG. The electrodes can have two (2D) or three dimensions (3D). ElastaTrode™ 3D electrodes in compression garments, reduce skin contact resistance on hairy skin or on certain locations of the body with undulations. ElastaTrode™ technology is protected with granted UK and US patents and other pending applications.
CT printed circuits
ElastaTrode®
ElastaTherm® was initially designed as a printed heater for smart textiles which has evolved as a unique technology for the automotive sector. In comparison with today’s heating element wires or mats, ElastaTherm® heaters reach operating temperatures quicker, use less power, are thinner, lighter, and self-regulate at the operating temperature. This provides enhanced safety and the elimination of a temperature regulation circuit. ElastaTherm® technology is again protected with granted patents.
CT printed heaters
ElastaMoist™
ElastaMoist™ moisture sensor technology, is ideally suited to smart textile and smart garment applications in the femtech, health and medical markets. The sensor is custom designed for each application and consists of two or more tiny electrodes.
The electrodes are connected to tracks, that run back to a microcontroller that measures the sensor resistance every few seconds. Thereafter, when liquids such as water or urine appear between the electrodes, a consumer or health care professional for example, can be notified that a diaper or nappy is wet.
CT printed moisture sensors
ElastaTherm® was initially designed as a printed heater for smart textiles which has evolved as a unique technology for the automotive sector. In comparison with today’s heating element wires or mats, ElastaTherm® heaters reach operating temperatures quicker, use less power, are thinner,lighter, and self-regulate at the operating temperature. This provides enhanced safety and the elimination of a temperature regulation circuit. ElastaTherm® technology is again protected with granted patents.
CT printed heaters
ElastaTherm®
ElastaMoist™ moisture sensor technology, is ideally suited to smart textile and smart garment applications in the femtech, health and medical markets. The sensor is custom designed for each application and consists of two or more tiny electrodes. The electrodes are connected to tracks, that run back to a microcontroller that measures the sensor resistance every few seconds. Thereafter, when liquids such as water or urine appear between the electrodes, a consumer or health care professional for example, can be notified that a diaper or nappy is wet.
CT printed moisture sensors
ElastaMoist™
ElastaSens™ has been designed as a printed pressure sensing technology for smart textiles. ElastaSens™ pressure sensors are flexible, thin and light, making them suitable for smart garments, PPE and many other smart textile applications. ElastaSens™ pressure and force sensors, which use resistive and/or capacitive measurements, can be tuned to specific customer requirements.
CT printed capacitive sensors
ElastaSens™
Do you have product or a prototype that could be improved with our technologies?
Be assured, we'll find the best solution for your innovation
ElastaTrode™ is a printed circuit technology designed for smart textiles. Conductive Transfers has manufactured ElastaTrode™ circuits for the medical smart garment Innovo. This FDA and CE approved compression garment, is used to treat urinary incontinence. The technology is suitable for a wide range of smart textile applications, including electrical muscle stimulation, transcutaneous electrical nerve stimulation and medical sensing applications, including ECG, EMG and EEG. The electrodes can have two (2D) or three dimensions (3D). ElastaTrode™ 3D electrodes in compression garments, reduce skin contact resistance on hairy skin or on certain locations of the body with undulations. ElastaTrode™ technology is protected with granted UK and US patents and other pending applications.
CT printed circuits
ElastaTrode™
ElastaSens™
ElastaSens™ has been designed as a printed pressure sensing technology for smart textiles. ElastaSens™ pressure sensors are flexible, thin and light, making them suitable for smart garments, PPE and many other smart textile applications. ElastaSens™ pressure and force sensors, which use resistive and/or capacitive measurements, can be tuned to specific customer requirements.