4K Ultra HD Panel with 850 cd/m², 10-Bit Color-Depth (internal 14-Bit), 100 % Adobe® RGB.
- 3D Look Up Table (LUT)
- DICOM® & DIN6868-157
- 3D display through optional integrated polarizer film (passive glasses required)
- AC or DC version available
- Optional: 12G-SDI and 3G-SDI, in and out
- PCAP Multi Touch with 10-point, operable with fingers or latex gloves
As an OEM/ODM we develop your highly individual monitor solution, starting with the smallest component up to the complex display system.
Every customer has particular needs, depending on the market it serves, and all customers require superior product reliability. Knowing this, Canvys uses a consultative approach and delivers partial to full customized solutions with long-term availability.
After years of partnering with OEMs in industries such as gaming, medical, military/defense, retail, automation/industrial, and transportation, we’re able to bring together the capabilities our customers need:
- Custom engineering
- Strong relationships with key vendors and manufacturers
- Comprehensive solution support
Our ability to successfully serve customers is proven by the number that return to Canvys for the second, third and fourth generation of their solutions.
Available Sizes
Platform Specifications
4K Ultra HD Display
DICOM® compatible
High Brightness Panel with 850 cd/m² typ. (native)
100 % Adobe® RGB color space
Option:
3G-SDI , 12G-SDI
Size | 32″ / 81.3 cm | |||
Available Versions | Standard version with AC Input | Version with 3G/12G-SDI and AC Input | Standard version with DC Input | Version with 3G/12G-SDI and DC Input |
Aspect Ratio | 16:9 | |||
Resolution | 3840 × 2160 / 4K UHD | |||
Display Colors | 1.07 B | |||
Brightness | 850 cd/m² typ. | |||
Contrast Ratio | 1350:1 | |||
Viewing Angle (H x V) | 178° / 178° typ. | |||
Housing | Plastic (Signal White) | |||
Safety | UL/cUL+CB (ANSI/AAMI ES60601-1, CAN/CSA-C22.2 NO. 60601-1:14, IEC/EN 60601-1 ed. 3.1) |
|||
EMC / Environment | CE (EN60601-1: ed. 3.1, EN60601-1-2:2015, 4th ed.), FCC-B, VCCI, WEEE, RoHS, REACH |
|||
Options | PCAP-Touch (10-point, AG coating), passive 3D polarizer film for 3D images and 3D video, calibration tools, remote control through GPIO interface, ALS (Ambient Light Sensor), stand base | PCAP-Touch (10-point, AG coating), passive 3D polarizer film for 3D images and 3D video, calibration tools, remote control through GPIO interface, ALS (Ambient Light Sensor), stand base, 24 V long distance solution up to 20 meters |
||
Adobe and the Adobe logo are either registered trademarks or trademarks of Adobe Systems Incorporated in the United States and/or other countries. |
Overview of the I/Os: Standard version with AC Input
Overview of the I/Os: 3G/12G-SDI version with AC Input
Overview of the I/Os: Standard version with DC Input
Overview of the I/Os: 3G/12G-SD version with DC Input
Detailed Explanation of the Technical Features
Projected Capacitive Touch
Introduction
Projected Capacitive Technology (PCT) is fast becoming one of the most prevalent touch technologies for an expanding variety of applications ranging from consumer devices to commercial applications in retail and gaming signage. Driven by the increasing number of users of touch-enabled mobile devices, consumer and professional expectations for touch applications have moved far beyond single touch requirements into the realm of multi-touch and multi-user capabilities. Since "projected capacitive technology" is a relatively broad term this post explores two of the most prominent sensing methods, "self capacitance" and "mutual capacitance", and the different options within these sensing methods. Each of these sensing methods address different needs and understanding their strengths and capabilities can help hardware and software developers choose the appropriate touch technology for their application.
How Projected Capacitive Technology Works
Projected capacitive technologies detect touch by measuring the capacitance at each addressable electrode. When a finger or a conductive stylus approaches an electrode, it disturbs the electromagnetic field and alters the capacitance. This change in capacitance can be measured by the electronics and then converted into X,Y locations that the system can use to detect touch. There are two main types of sensing methods, self-capacitance and mutual capacitance [see illustration 1 and 2], where each has its own advantages and disadvantages.
Self-Capacitance
In this implementation, the electronics measure the current on each electrode to ground and therefore is called "self-capacitance". There are two options for how the system can detect touch — multi-pad construction or rows and columns [see illustration 3 and 4]. In a multi-pad construction, each electrode, or "pad", is individually addressable by the electronics requiring an individual connection between the electrode and the controller. This allows multi-pad self capacitance to support greater than one touch, but given that each pad must be individually addressed, it makes the implementation of this solution for screens greater than 3.5 inches very challenging. In a row-and-column construction, each row and column is an electrode and therefore is individually addressed by the controller. Even though the intersection of a row and column represents a unique coordinate pair, the electronics are not able to measure each individual intersection as they can only measure each electrode. This limits row and column self-capacitance implementations to single and dual touch detection where "ghost" points can be a problem. Ghost points are the result of imaginary or false row and column intersections in locations other than the touch location [see illustration 5].
To sense touch in a self-capacitance implementation, the electronics scan through each electrode and measures the amount of current on each electrode to establish a steady-state current. When a finger or grounded conductive stylus approaches the screen, they couple to the electrodes and increase the current draw as it creates a path to ground. By determining which row and column is closest to the touch location, and using interpolation for higher precision, a controller can determine the location of a touch.
Mutual Capacitance
Mutual capacitance is the intentional or unintentional capacitance between two "charge holding objects." Projected capacitance touchscreens intentionally create mutual capacitance between elements of columns and rows [see illustration 6] in the vicinity where each intersect the other. This allows the system electronics to measure each node (intersection) individually to detect multiple touches on the screen during one screen scan.
When a finger touches near an intersection, some of the mutual capacitance between the row and column is coupled to the finger which reduce the capacitance at the intersection as measured by the consystem electronics. This reduced capacitance crosses the "touch threshold" set by the electronics indicating a touch has occurred.
Capacitance Touchscreen Construction
Several techniques are available to construct a capacitance touchscreen. These include conductive wire construction or the application of transparent conductive materials, such as Indium Tin Oxide (ITO), to a polyester (PET) film layer "sandwich" or to a glass substrate.
Conductive Wire Construction
Conductive wire construction provides a greater signal-to-noise ratio than ITO construction. However, the wired lines are typically visible to the naked eye. Wires can be designed into a grid array pattern and separated by a dielectric layer or specially designed for a single layer with a cover glass or PET over the electrodes.
Indium Tin Oxide (ITO)
Indium Tin Oxide (ITO) sputtered onto a surface (glass or PET) achieves a sheet resistance typically in the
50-200 Ω squared range. Sheet resistance and light transmission are directly proportional,meaning that higher resistance equals higher light transmission as the ITO layer is typically thinner when trying to achieve greater light transmission.
Index matching is one way to reduce pattern visibility when using lower resistance patterns. To create the pattern needed for the matrix or diamond design of the capacitance grid, laser etching, photolithography, and many proprietary methods can be used. In row and column ITO implementations, the conductive layers need to be insulated from one another.
Sensor Construction
Polyester (PET) film can be used for projected capacitive in three ways: a conductive pattern printed on two separate sheets and then laminated together; a conductive pattern printed on both sides of a single sheet; or two conductive patterns printed on the same side with a dielectric layer in between with conductive bridges. Single layer constructions can reduce the overall stack up which is important in compact mobile displays, but it requires a double pass (imaging) on the same layer. For a two layer construction only a single pass is required, but the lamination of two layers of PET requires precision alignment [see illustration 7]. On a single sided, double print solution, the bridging pattern can sometimes create optical anomalies that can be seen by the naked eye.
Glass solutions can have similar constructions as that of PET. The benefits of glass are that it can offer improved optics and rigidity. The disadvantage of glass on the sensing layers is that it requires a unique layer image mask for each sensor size or design. This can be a barrier to lower volume production and provides less flexibility on sensor customization and design since the cost of new layer masks can range from $40,000 to $100,000. In addition, a PET construction allows for higher capacity, roll-to-roll manufacturing process which can reduce cost and increase flexibility, while glass-based solutions require individual glass sheets with a limited number of sensors per sheet.
Patterning
Matrix patterns and diamond patterns are most commonly used for manufacturing project capacitive sensors. Diamond ITO patterns can be more uniformly printed than matrix patterns which helps improve optics by reducing the impedance of the printed pattern, which results in improved overall system performance.
Some touch technologies, such as surface capacitive, have a uniform conductive coating on the surface which allows for a uniform transmission constant which is less visible. Even though ITO is a transparent conductive layer, with patterned ITO, the breaks in the pattern can be detected by the user due to changes in light refraction.
In order to reduce the visibility of the pattern, sophisticated index matching is used to limit light refraction so that the pattern becomes nearly invisible.
Optics
Projected capacitive technology can be offered in many configurations. Index-matched ITO patterns on glass or PET can offer improved optical characteristics. In addition, minimizing the air gap between the display and touchscreen or optically bonding the touchscreen to the display are other ways to reduce light refraction. This results in better contrast and improved light transmission between the display and the end user. Sensors with wired construction offer good transmission between conductive elements, but the 10 micron wires (typical) are visible in the touchscreen sensor. On single-sided constructions the bridge pattern may also be seen which can affect the optics.
Number of Touch Points (one, two, multiple)
Projected capacitive technology in varying configurations can support single, dual and multi-touch. Self-capacitance solutions are limited to single and dual touch where gesturing can be achieved, but ghosting effects can occur. Mutual capacitance is capable of full multi-touch interactivity since each node intersection is individually addressable. Windows 7 Touch Logo requires 2-touch performance as a minimum but can support up to 100 simultaneous touch points.
Speed
Users are increasingly sophisticated and demand seemingly instantaneous response. Most users are comfortable with a minimum touch response of 20 milliseconds (ms) or less, but experienced users
may be able to detect touch delays of 10 ms or greater. It is important to understand that touch response is not only limited to the touchscreen electronics response time. Application developers must take into account driver delay, operating system delay, software rendering time, and graphics card delay. Minimizing touch response time is an important factor along the entire chain of hardware and software layers, and if the system electronics consumes the entire 20 ms response time needed for optimal user experience, then the total response time can increase to 30-40 ms, thus creating a poor user experience. This response time is often referred to as the "response budget", and this budget of cumulative time delays must be carefully considered in any system hardware/software design solution [see illustration 8].
Different sensing techniques can be used to detect touch and some may provide faster response time. For multi-pad self-capacitance solutions, each pad must be serially addressed which makes it only practical for small display solutions. Row-and-column self-capacitance sensing sequentially scans each electrode to determine touch activation and thus a 40 row by 60 column system would require 100 individual scans.
For mutual capacitance sensing, where each intersection is addressable, that same 40 row by 60 column system would require 2,400 individual scans. This method, known as X/Y, where X represents the rows and Y represents the columns, would dramatically impact response time and make the system unusable. Reducing the measurements to X*1 significantly reduces the measurements by measuring only the number of rows and simultaneously measuring the columns. This results in only 40 measurements for the 40 row by 60 column systems. The disadvantage of this measurement time reduction is a potential for reduced accuracy, so advanced sensing techniques and algorithms are required.
Durability
Projected capacitive technology projects a signal outward creating an electrical field that can be measured by the system electronics. This technology does not require direct contact with the active touch surface so a protective cover lens (usually a glass substrate) is often used as the surface of the touch sensor [see illustration 9]. This glass surface can be standard glass, tempered glass, or chemically-strengthened glass depending on the application needs. This "second surface" technology (a front surface that can withstand wear and scratch damage without affecting touch performance) means that screen cracks, scratches or surface wear would have to extend through the entire thickness of the cover glass to reach the electrodes and cause functional damage.
Self-capacitance solutions may have a higher signal level and are typically able to project through thicker cover glass up to 20 mm, although thicker cover glass can affect system performance and accuracy. For mutual capacitance solutions, which has a lower signal level, typical cover glass thickness is in the 0.7 mm to 2.0 mm range.
Transmission (Screen Brightness)
Depending on the sensor's construction, projected capacitive offers different levels of light transmission. For a glass-on-glass solution, light transmission in excess of 90% can be achieved. If PET layers are used, this number may be reduced to 86-90%, however, some advanced processes can achieve greater than 88% transmission using a PET-based construction.
Anti-Glare
Anti-glare characteristics are important in touch sensor design since it allows for optimal screen viewing in ambient light environments.
The reflections on the touchscreen can be significantly reduced by using an anti-glare cover glass. One anti-glare solution is a chemical etch process which creates surface anomalies that refract light, dispersing the light reflection so the user can still see the image on the screen. The second solution is to use a coating applied to the sensor cover glass or to a PET film overlay. Both solutions serve the purpose of dispersing the reflected light to improve the user experience. A heavy anti-glare treatment can negatively impact clarity, so selecting the proper anti-glare solution for a given application is critical.
Anti-Stiction
Anti-stiction, meaning the reduction of surface stiction while your finger or object drags on the surface, allows for better user experience. Plain glass and some coatings can increase the friction with as user's fingers during draw, drag, and gesturing applications. With an anti-stiction surface, fingers glide effortlessly across the screen for very smooth, natural gesturing experience [see illustration 10].
Scalability
Inherent in projected capacitive technology construction, scaling larger sensor sizes would require additional rows and columns to maintain the same touch fidelity. Since access to each row and column (electrode) is required, new tail designs and electronics are needed for each design size. In addition, in order to create the new pattern in a glass-based solution, a new mask would be needed to create the unique ITO layers. If conductive wires are used, a new program is required to create the new wire pattern. For PET-based solutions, a new program would be required for singulation of the sensor.
Bare Hands, Latex Gloves and Stylus
Projected capacitive technology's electrical field projects above the cover glass to allow sensing of finger, gloved hands and passive stylus. Self-capacitance systems can be tuned to sense both bare fingers and thick winter gloves, although the ability to sense both under the same setting may reduce accuracy. Mutual capacitance systems can sense bare fingers and thin surgical and food service
gloves, but not thick winter gloves (unless they are conductive gloves). A passive stylus can be designed to work with both technologies, however, the diameter of the stylus tip for a mutual capacitance system can usually be smaller than for a self capacitance system [see illustration 11].
Sensing Lines and Touch Resolution
With projected capacitive technology the number of sensing lines and drive lines determine the number of intersection or nodes. Each of these nodes represent a touch location, plus, by using interpolation,
the system electronics are able to pin-point touch locations by using the information from many of the surrounding electrodes help determine the exact location of touch. Self capacitance sensing is only limited to the information from each row and column scan which provides less information for the electronics to interpolate. Mutual capacitance sensing has a much higher density of electrode information to interpolate, resulting in very high touch accuracy. In the 40 row by 60 column example, mutual capacitive sensing provides
a 24:1 ratio in touch density over self capacitance sensing.
Surface Contaminants
Projected capacitive technology is an ideal solution for contaminant-prone, public access or harsh environments where dust and debris can collect on the surface of the touchscreen or along the bezel edge. Since PCT is unaffected by most surface contaminants, it can be a better self-service technology than alternative touch technologies that rely on sensors at the edge or corners of the touchscreen.
Flat Front Surface, Industrial Design
One of the unique features of projected capacitive touchscreens is that the design allows for a flat front surface (FFS) implementation. With all pattern and tail bonds protected by a cover glass, there is no need for a bezel around the screen. This capability allows for enhanced industrial designs that are aesthetically and functionally appealing to the end user. Bezels can keep the finger from reaching the corners of a screen, but in a full screen PCT design the user can access the most extreme corner placements of buttons. In addition, a printed border under the cover glass gives the illusion of a virtual bezel which may be branded with a company's logo or name [see illustration 12]. In addition, utilizing the FFS capability also makes debris build up less likely and simplifies the screen cleaning process.
Product Specifications (typical values)
Feature | Mutual Capacitance | Capacitance-to-Ground |
Light Transmission | 84% to 90% | |
Stylus Type | Finger, Thin Glove, Passive Stylus | Finger, Thin Glove, Passive Stylus |
Second Surface | Yes | |
Sealability | NEMA 4 / 12 and IP 65 standards | |
Response Time | 6 ms | 10 ms |
Touches | 20+ | 1 (dual) |
Accuracy | > 99 % | > 98,5 % |
3M...Enabling the Future of Multi-touch
3M’s implementation of projected capacitive technology (3M PCT) is designed specifically for the needs of larger display applications. By maintaining a total solutions focus,
3M has combined decades of film manufacturing technology experience and over 25 years of proven capacitance electronics expertise to create 3M Multi-Touch PCT systems and display solutions ranging in size from 8.4 to 32 inches.
By using a roll-to-roll PET patterning process, 3M is able to provide customers with design flexibility without the high cost of creating new masks for a glass-on-glass solution.
In addition, 3M’s advanced manufacturing process is able to index match the ITO to provide a nearly invisible pattern which, when combined with proprietary optically clear adhesives, gives the touchscreen high clarity and increased light transmission.
With this film-based solution, 3M is able to leverage core competencies in film-based technologies. This will allow 3M to continuously innovate improved coating solutions for better optical characteristics and improve user experiences through enhanced surface feel. In addition, 3M is able to add or substitute layers within the PCT stack to offer additional features, such as light control films for viewer privacy, solar reflection films to help protect LCD's, and safety films to help control glass breakage.
The result of 3M's electronics expertise is the 3M Multi-Touch Electronics PX400, a patented multi-touch controller designed and engineered specifically for this larger display sizes without relying on commonly-used electronics developed for the portable device sizes (3.5” to 11.6”). This optimized controller provides customers with 3M PCT’s unique feature set in a scalable, fully warranted, full multi-touch system solution.
The final key element of the 3M PCT solution is the engineered cover glass. This key element enables leading-edge industrial designs that eliminate surface mount components and bezels which can detract from the overall product aesthetics, be susceptible to damage, and may collect debris. With a non-active cover glass, product designers can extend the touchscreen glass to the display edge and incorporate capacitive, or even mechanical buttons to the industrial design.
The overall result is the 3M PCT multi-touch system, a high performant, high fidelity interactive solution to help meet customers' expanding user interface requirements.
Content and images of 3M were reproduced with permission © 3M 2011. All rights reserved.
White Paper Download
White Paper: Canvys Touch Technology Selection Guide (2021)
7.31 MBDownload
As OEM/ODM we develop your highly individual monitor solution, starting with the smallest component up to the complex display system
With high confidence it is possible to adapt the monitor platform presented here more finely to your individual needs or to the respective application environment. However, there are many possibilities for display customization, which depend on a number of factors. We cannot list everything that is possible at this point.
Therefore we ask you to contact us. Our sales engineers can show you in a non-binding consultation which platform modifications can be realized depending on your specific requirements.
Here is a brief overview of our services and competences with regard to customizing.
Extract from our services regarding further customizing possibilities
Touch Integration
Global value-added touch screen and protective shield integrator of branded and non-branded LCD displays
- Canvys is a global value-added touch screen and protective shield integrator
- Infrared (IR)
- Multi Touch
- Optical (Camera)
- Projected Capacitive (PCAP)
- Resistive (4-, 5-, 7-and 8-wire)
- Surface Acoustic Wave (SAW)
- Surface Capacitive (SCAP)
Looking for 3M Touch Screen Replacements?
Custom Display Enclosures
Canvys offers a variety of custom-built enclosures for industrial and medical applications.
- We utilize only the highest quality materials
- We use injection molding, deep drawing, SLA prototyping, strand-casting, and die-casting
- We offer various housing designs: open frame, panel / chassis / rack mount, customized bezel, back cover design, cable management, rugged housings, slim and light weight designs
- Customer-specific requirements such as a boot logo, back-printed customer logo on the protective glass or touch screen or specific requirements for the respective housing material can also be implemented
- We ensure stable and long-term display availability
As an expert in engineering display solutions, Canvys offers a variety of custom built enclosures for industrial and medical environments.
- We utilize only the highest quality materials
- We use injection molding, deep drawing, SLA prototyping, strand-casting, and die-casting
- We offer various housing designs: open frame, panel / chassis / rack mount, customized bezel, back cover design, cable management, rugged housings, slim and light weight designs
- Customer-specific requirements such as a boot logo, back-printed customer logo on the protective glass or touch screen or specific requirements for the respective housing material can also be implemented
By using long-term available industrial components, Canvys guarantees long-term availability in consistent form, fit and function.
Contact us, we will be happy to assist you in choosing the right housing concept...
Custom Enclosure Options
Materials | Process / Technologies | Housing Design | Housing Colors | Branding | Protection Class |
Metal | Injection molded | Customized Open Frame | acerwhite | Customer color | IP Protection up to IP69K |
Aluminum | Deep Drawing | Customized Panel / Chassis / Rack Mount |
black | Customer logo | |
Stainless steel | SLA** Prototyping | Customized bezel | gray | ||
Plastic, UV resistant material like ASA*, Starex | Strand-casting | Customized True Flat Desktop | customized | ||
Die-casting | Back cover design, Cable management, rugged, slim and light weight designs |
* Acrylonitrile Styrene Acrylate
** Stereolithography
A product will only become a "good product" if it is used successfully in the intended application environment.
When a complex customer project has gone through all phases from start to completion and the customer-specific monitor solution has been manufactured, its true purpose comes into play: Its application!
Only here, in the real operation under realistic environmental conditions, the design, conception, components and the entire system must prove itself. Only if this is successful, our customer will finally speak of success!
Our customer-specific display solutions have been successful for decades in the most diverse applications and markets.
This Canvys platform forms the basis for the following applications
Dental Care Units
Dental Care Units
In a dental practice, the treatment room, dentist, dental assistant, patient, equipment, and the treatment plan form a complex network of relationships. Dental care units provide patients and doctors with the best possible treatment experience.
Canvys carefully considers quality, ease of use, safety, patient comfort, ergonomic flexibility, and cost efficiency in the development of dental care units. The process usually takes several years of design and engineering. For the manufacturers, this means years of research, significant investments, registration of patents, and carrying out the necessary certifications before launching the dental unit into the marketplace.
Canvys develops customer-specific monitor solutions with high-resolution image quality, superior contrast values and brilliant color reproduction, and certifications for such treatment units. Integrated protective glasses with different anti-reflection options to reduce reflections on the glass surface allow cleaning of the display with disinfectants. The user-friendly, touch screen interface enables efficient workflows, such as X-ray images, intraoral images, and schedules.
Canvys display solutions for the Dental industry easily combine other imaging devices such as a camera or microscope via its signal inputs. We also integrate customer-specific requirements such as a boot logo, back-printed customer logo on the protective glass or touch screen, and material requirements for the plastic housing into the overall design.
Note: All application notes are meant as examples only and is for general informational purposes only. How customers use our customized solutions as components within their systems varies significantly by customer. Regulatory compliance is the sole responsibility of the customer. Neither Canvys nor Richardson Electronics, Ltd. or any of its subsidiaries have any responsibility or liability for such compliance.
Recommended Products/Platforms for this Application
V SERIES MEDICAL MONITORS
15.6"
Medical display with slim design available with fully closed housing or with ventilation holes.
Available in 16:9 format.
- Bright Full HD Panel for brilliant images
- Modern True Flat Display for easy cleaning and disinfection
- DICOM® compatible
- Wide viewing angle
- Anti-Reflective or Anti-Glare Glass
- PCAP Multitouch Sensor with 10 point technology, operable by finger or latex gloves
G SERIES MEDICAL MONITORS
21.5"
Medical displays with slim design, closed housing, OSD touch keys on glass, and optional ventilation holes.
Available in 16:9 format.
- Full HD Panel with IPS technology
- DICOM® compatible
- Auto Luminance System and Calibration Mode
- Wide viewing angle
- PCAP Multitouch Sensor with 10 point technology, operable by finger or latex gloves
- All-In-One version in same housing design
FULL CUSTOMIZED SOLUTIONS
Canvys is an OEM/ODM manufacturer. In order to offer you customized display solutions at a competitive price, we have developed various platforms.
These serve as a basis for a variety of individual solutions, which we can realize for you.
However, for certain customer/application cases, these platforms are not suitable. You need unique display systems, which Canvys develops and produces as a full-customizing solution.
We will be happy to recommend you which solution is the best for your application.
Endoscopy Systems
Display Solutions for Endoscopy Systems
When performing an endoscopy, image quality is critical. Clear recognition of sensitive structures, even under the most challenging conditions, has a significant impact on the medical diagnosis.
System suppliers in the field of endoscopy usually develop the entire image chain from the endoscope to the digital transmission, display, and storage of the resulting images. Quality, ease of use, safety, patient comfort, ergonomics, and flexibility are essential in developing endoscopy systems.
For the manufacturers, the design and development of these units could mean years of research, significant investments, patent, and certification applications until the endoscopy system can be launched into the marketplace.
Canvys offers custom monitor solutions with outstanding image quality, brightness, contrast, color reproduction, and durable hardware at competitive prices. Integrated protective glass with various anti-reflection options allows the monitor to be cleaned with disinfectants. Canvys’ modern/flat design, integrated cable cover, and applicable certifications integrate flawlessly into the endoscopic system.
Select signal inputs, such as 12G-SDI, support the processing of digital video signals. It is also possible to store pre-settings, according to the system manufacturer's specifications, in the display. Customer-specific requirements such as a boot logo, back-printed customer logo on the protective glass or the touch screen, and specific requirements for the plastic housing material are available options.
Note: All application notes are meant as examples only and is for general informational purposes only. How customers use our customized solutions as components within their systems varies significantly by customer. Regulatory compliance is the sole responsibility of the customer. Neither Canvys nor Richardson Electronics, Ltd. or any of its subsidiaries have any responsibility or liability for such compliance.
Recommended Products/Platforms for this Application
G SERIES MEDICAL MONITORS
21.5"
Medical displays with slim design, closed housing, OSD touch keys on glass, and optional ventilation holes.
Available in 16:9 format.
- Full HD Panel with IPS technology
- DICOM® compatible
- Auto Luminance System and Calibration Mode
- Wide viewing angle
- PCAP Multitouch Sensor with 10 point technology, operable by finger or latex gloves
- All-In-One version in same housing design
4K SERIES MEDICAL MONITORS
27"
4K Medical displays with ultra high definition (UltraHD) resolution and high brightness.
Available in 16:9 format.
- 4K Ultra HD Panel with AHVA / AMVA3 Technology
- High Resolution and High Brightness
- High color space coverage upto 100% sRGB
- Picture-in-Picture and Picture-by-Picture Mode
- DIN6868-157 compatible
- PCAP Multitouch Sensor with 10 point technology, operable by finger or latex gloves
4K SERIES MEDICAL MONITORS
32"
4K Medical displays with ultra high definition (UltraHD) resolution and high brightness.
Available in 16:9 format.
- 4K Ultra HD Panel with AHVA / AMVA3 Technology
- High Resolution and High Brightness
- High color space coverage upto 100% sRGB
- Picture-in-Picture and Picture-by-Picture Mode
- DIN6868-157 compatible
- PCAP Multitouch Sensor with 10 point technology, operable by finger or latex gloves
Robot-Assisted Surgical Systems
Custom Monitors for Robot-Assisted Surgical Systems
The use of robot-assisted surgery or robotic surgery in medical procedures has grown in popularity to provide more precision, flexibility, and control than conventional surgical techniques. In robot-assisted surgery, the instruments are often not moved directly; the robot translates the surgeon's hand movements to enhance surgeons' capabilities performing surgery. Every component of the system is critical to ensuring the highest level of patient care.
As an ISO13485-approved manufacturer of medical devices, Canvys is fully certified to design and manufacture custom medical monitors that meet these high medical standards. Working closely with the medical device manufacturer, our engineering team integrated medical-grade components with long-term availability to maintain the product's long life cycle and avoid the need for time-consuming redesigns and expensive recertification.
For all integrated medical devices, Canvys offers customized monitor and All-In-One (monitor with integrated PCs) solutions which can be delivered with preset color calibrations. These monitors are medically certified with Full HD- and up to 4k2k resolution, providing excellent image quality, brightness, contrast, and color fidelity. Uniquely configurable panel PCs make it possible to meet the performance requirements of each customer’s application.
The Canvys team of design engineers can integrate protective glass or touch screens with different anti-reflective (AR) or anti-glare (AG) options to reduce reflections and glare on the glass surface and proper cleaning of the display with disinfectants.
The ergonomic design of the displays with integrated cable cover can be easily integrated via the VESA interface on existing robotic systems.
Customer-specific requirements such as a boot logo, a back-printed customer logo on the protective glass or touchscreen, or specific requirements for the plastic housing material can also be implemented.
Recommended Products/Platforms for this Application
G SERIES MEDICAL MONITORS
21.5" / 23.8"
Medical displays with slim design, closed housing, OSD touch keys on glass, and optional ventilation holes. Available in 16:9 format.
- Full HD Panel with IPS technology
- DICOM® compatible
- Auto Luminance System and Calibration Mode
- Wide viewing angle
- PCAP Multitouch Sensor with 10 point technology, operable by finger or latex gloves
- All-In-One version in same housing design
G SERIES ALL-IN-ONE MEDICAL MONITORS
21.5" / 23.8"
All-In-One (AIO/Panel PC) with 6th Gen Intel® Core processor and optional SSD expansion. Available in 16:9 format.
- Full HD Panel with high Contrast Ratio
- 6th Gen Intel® Core™ i5-6300U, 2-Core, 2.4 GHz processor
- 8GB DDR4 2133 SDRAM (up to 16GB available)
- Modular extension of interfaces such as Bluetooth, WLAN, RFID or additional options like Webcam and Reading Lights
- USB interface supports ISO 14443-A
- PCAP Multitouch Sensor with 10 point technology, operable by finger or latex gloves
FULL CUSTOMIZED SOLUTIONS
Canvys is an OEM/ODM manufacturer. In order to offer you customized display solutions at a competitive price, we have developed various platforms.
These serve as a basis for a variety of individual solutions, which we can realize for you.
However, for certain customer/application cases, these platforms are not suitable. You need unique display systems, which Canvys develops and produces as a full-customizing solution.
We will be happy to recommend you which solution is the best for your application.
Surgical Suite – Device Control
Surgical Suite – Device Control
In highly technical operating rooms such as hybrid operating rooms/surgical suites, the introduction of new technologies and complex medical equipment systems increases the need to streamline workflows and configurations. To generate optimum efficiency and quality for surgeons and OR personnel, one of the essential functionalities is the networking of the equipment in the operating room, called OR integration. OR integration enables centralized/decentralized operation of all integrated medical devices, the ability to display different image sources, and the option to save and manage data. Displays with and without an integrated computer, including All in One (AIO) or Panel PCs, can be used.
Canvys designs customized monitor solutions for operating rooms with Full-High-Definition (FHD) or Ultra-High-Definition (UHD) 4K2K resolution providing outstanding image quality in terms of brightness, contrast, and color accuracy with durable hardware.
These solutions incorporate integrated protective glass with different anti-reflection options to reduce reflections on the glass surface and to enable safe cleaning with disinfectants. The user-friendly, touch screen interface provides efficient workflow by allowing the medical staff to view patient data, documentation, endoscopic images, and schedules quickly and safely. You can also control medical equipment such as cameras and light sources, insufflators, and operating tables, or non-medical equipment such as room lighting and air conditioning from the touch screen.
The ergonomically designed displays with integrated cable cover easily integrate into existing support arms via the VESA interface. Customer-specific requirements such as a boot logo, back-printed customer logo on the protective glass or touch screen, and specific requirements for the housing, such as color and material, are additional options.
Note: All application notes are meant as examples only and is for general informational purposes only. How customers use our customized solutions as components within their systems varies significantly by customer. Regulatory compliance is the sole responsibility of the customer. Neither Canvys nor Richardson Electronics, Ltd. or any of its subsidiaries have any responsibility or liability for such compliance.
Recommended Products/Platforms for this Application
G SERIES MEDICAL MONITORS
21.5"
Medical displays with slim design, closed housing, OSD touch keys on glass, and optional ventilation holes.
Available in 16:9 format.
- Full HD Panel with IPS technology
- DICOM® compatible
- Auto Luminance System and Calibration Mode
- Wide viewing angle
- PCAP Multitouch Sensor with 10 point technology, operable by finger or latex gloves
- All-In-One version in same housing design
M SERIES MEDICAL MONITORS
42"
Large format medical displays with modern metal housing and high contrast ratio.
Available in 16:9 format.
- Full HD Panel with AMVA3 Technology
- High color space coverage upto 100% sRGB
- Auto Luminance System and Calibration Mode
- DICOM® compatible
- Wide viewing angle
- PCAP Multitouch sensor with 10 point technology, operable by fingers or latex gloves
4K SERIES MEDICAL MONITORS
55"
4K Medical displays with ultra high definition (UltraHD) resolution and high brightness.
Available in 16:9 format.
- 4K Ultra HD Panel with AHVA / AMVA3 Technology
- High Resolution and High Brightness
- High color space coverage upto 100% sRGB
- Picture-in-Picture and Picture-by-Picture Mode
- DIN6868-157 compatible
- PCAP Multitouch Sensor with 10 point technology, operable by finger or latex gloves
Product Sheets / Brochures
Additional Information
4K Displays
Benefits of 4K Displays
Highest Resolution
With approximately 4,000 pixels horizontal (4K) by 2,000 pixels vertical (2K), 4K / Ultra HD technology equals 4 times Full HD and offers high values for contrast and enhanced color. 4K technology can be seen as a synonym for the new high resolution display technology sometimes referred to as Ultra HD (3840 × 2160) and / or 4K (4096 × 2160).
Medical Applications
A revolutionary display technology for medical applications, 4K displays allow users to view the finest image details. This feature is especially useful in applications such as surgical and endoscopy where the smallest detail is critical and may not be visible with a Full HD resolution.
Industrial Applications
4K displays are ideal when using industrial endoscope tools for the internal inspection of machinery. The images shown on a 4K display enhances views to the degree of identifying micro-cracks. This advancement in technology will help to minimize the need to disassemble machinery for inspection, saving both time and money.
Multi-Modality
In addition to precise, high-quality images, 4K displays allows multiple windows to be displayed on one screen. Depending on the screen size and inputs, up to four windows from four different sources can be displayed on one screen – at one time. For example, a multi-modality display enables medical staff to view a camera input of an endoscope, as well as vital stats, and other patient information on one screen.
The 4K Picture-by-Picture function is especially useful in diagnostic interpretation. This function allows medical staff to view / compare two images side-by-side on a single screen in 2K by 2K resolution without losing image quality. In addition, only one calibration and gamma setting are needed when utilizing a single screen for multiple images. This multi-modality feature is also useful for industrial applications such as Control Centers in Transportation, Energy, Surveillance and Military markets.
High Brightness
Our 4K High Brightness monitors provide optimal color reproduction and a high contrast ratio – making these displays ideal for medical and industrial imaging applications. Even when exposed to strong ambient light, a consistent visibility is guaranteed.
Optical Bonding
Optical Bonding is an option we offer to enhance the viewing quality of a display by reproducing a higher contrast and higher color depth. The bonding of the LCD module with the touch screen or protection glass reproduces a more vibrant image. The advantages are a clearer picture, reduced glare and greater resistance against breakage under mechanical pressure.
Canvys 4K Displays — Features
- Available custom sizes from 27“ – 55“ (1)
- High Brightness panels for 27“ and 32“
- Optical Bonding available up to the size of 32“
- Through up to four various picture input sources and the different display modes the screen can be split into multiple high resolution sections
- Modern and easy to clean True Flat design
- Optional Projected Capacitive Touch (PCAP) — operable by 10 fingers or latex gloves
- Customizing possible: branding (logo print), boot logo, protection glass, protective shield, …
- Medical certified and industrial versions available
- Long-term availability
(1) Some sizes depend on a MOQ – Please contact us....
Typical Markets / Applications
Medical
- Surgical (operating room): monitoring with different inputs (camera, vital parameters, …)
- Surgical (Minimal Invasive Surgery)
- Diagnostics
- Endoscopy
- Microsurgery
- Pathology
- Radiology
Industrial
- Industrial Endoscopy for service, maintenance, …
- Control Centers / Rooms
- Transportation
- Energy and Military Industry
- Monitoring, Surveillance, …
Links to Canvys 4K Monitors – Product Pages