Place of Origin:
Guangdong, China
Brand Name:
ZXTLCD
Certification:
CE/Rohs/FCC
Model Number:
ZXTLCD-HOLO360R03
Make the Invisible Available to a Group
A 43-inch museum HoloBox can present subjects that are inaccessible, too fragile, too large or impossible to observe directly. Visitors might see the internal chambers of a machine, the original form of a ruin, an extinct animal in motion or the layers of a scientific model. The larger format supports family groups and school visits better than a small personal display, while the naked-eye effect avoids headsets that require distribution, cleaning and supervision.
Structure the Experience Around a Learning Outcome
Write one sentence describing what visitors should understand after watching. Then build the sequence around evidence for that outcome. If the goal is to explain a mechanism, show cause and effect. If the goal is reconstruction, distinguish surviving material from interpretation through color or narration. If the goal is scale, include a familiar reference. This method produces more educational value than a continuous rotation that shows form but never explains significance.
Use Layers of Interpretation
The holographic loop can deliver the universal first layer: motion, spatial relationship and transformation. A nearby label can provide names and dates. An optional touchscreen can offer language, captions and deeper chapters. Educator controls can jump to a specific scene during a lesson. Separating these layers keeps the visual presentation clear while serving visitors with different interests. Essential meaning should never depend on an interaction that may be unavailable or difficult to use.
| 43 inch 360-Degree Holographic Display Cabinets | ||
| LCD Panel Parameters | Screen Size | 43 inches |
| Installation Style | Desktop / Floor‑standing / Interactive (optional) | |
| Aspect Ratio | 16:9 | |
| Product Dimensions | Refer to the dimensional drawing on the final page | |
| Viewing Angle | 89° | |
| Recommended Viewing Distance | >0.5 m | |
| Maximum Resolution | 1920 × 1080 | |
| Audio | Stereo left and right channels | |
| Brightness | 400 cd/m² | |
| Image Quality | Fine and detailed | |
| Contrast Ratio | 1200:1 | |
| 2D Video Formats | Supports commonly used video formats | |
| Active Display Area | 940.896 × 529.254 mm | |
| Interfaces | USB, HDMI and Ethernet | |
| Maximum Imaging Area | 940 × 529 mm | |
| Holographic Glass | White‑coated / gray‑coated glass | |
| Optional Host – Standalone Player | Mainboard | Industrial‑grade mainboard |
| Supported Video Formats | AVI, MP4, TS, MKV, MPG, DAT, VOB | |
| Supported Video Resolution | Up to 1920×1080 at 30 fps | |
| Supported Image Formats | JPG, JPEG, BMP, PNG | |
| Supported Audio Format | MP3 | |
| MP3 Sampling Rate | 32–48 kHz | |
| MP3 Bit Rate | 32–320 kbps | |
| Maximum Bit Rate | 20 Mbps | |
| Interfaces | USB flash drive, SD card, HDMI | |
| Playback Methods | USB playback or connection to an external computer | |
| Optional Host – MP021 Player | Mainboard | Industrial‑grade MP021 media player |
| Supported Video Formats | AVI, MP4 | |
| Supported Video Resolution | Up to 1920×1080 at 60 fps | |
| Supported Image Formats | JPG, JPEG, BMP, PNG | |
| Supported Audio Format | MP3 | |
| MP3 Sampling Rate | 32–48 kHz | |
| MP3 Bit Rate | 32–320 kbps | |
| Maximum Bit Rate | 20 Mbps | |
| Playback Interfaces | USB flash drive, SD card | |
| Main Feature | Stable standalone media playback | |
| Optional Host – Android | Mainboard | RK3288 |
| Processor | Quad‑core Cortex‑A17, up to 1.8 GHz | |
| GPU | Mali‑T764 | |
| RAM | 2 GB DDR3; supports up to 4 GB | |
| Internal Storage | 8 GB / 16 GB / 32 GB eMMC optional; 16 GB standard | |
| Operating System | Android 5.1 | |
| Interfaces | 2×USB, RJ45 Ethernet, TF card slot | |
| Optional Host – Standard PC (Celeron) | Processor | Intel 1037U, dual‑core, dual‑thread, 1.8 GHz |
| Mainboard | Mini‑ITX with Intel Bay Trail SoC | |
| RAM | Kingston 4 GB DDR3 1600 | |
| Storage | 120 GB SSD | |
| Graphics | Integrated Intel HD Graphics (Dynamic Video Memory) | |
| Power Supply | Integrated 12 V | |
| Network | Realtek 8111E Gigabit Ethernet, 2.4 GHz Wi‑Fi | |
| Optional Host – Intel Core i3 | Processor | 4th‑gen Intel Core i3‑3217U, dual‑core, four‑thread, 1.8 GHz, 17 W |
| Mainboard | Mini‑ITX with HM76 chipset | |
| RAM | Kingston 4 GB DDR3 1600 | |
| Storage | 120 GB SSD | |
| Graphics | Integrated Intel HD Graphics 4000 | |
| Power Supply | Integrated 12 V | |
| Network | Realtek 8111E Gigabit Ethernet, 2.4 GHz Wi‑Fi | |
| Optional Host – Intel Core i5 | Processor | 4th‑gen Intel Core i5‑3317U, dual‑core, four‑thread, 1.7 GHz, 17 W |
| Mainboard | Mini‑ITX with HM76 chipset | |
| RAM | Kingston 4 GB DDR3 1600 | |
| Storage | 120 GB SSD | |
| Graphics | Integrated Intel HD Graphics 4000 | |
| Power Supply | Integrated 12 V | |
| Network | Realtek 8111E Gigabit Ethernet, 2.4 GHz Wi‑Fi | |
| Optional Host – Intel Core i7 | Processor | 7th‑gen Intel Core i7‑7500U, dual‑core, four‑thread, 2.7 GHz, 15 W |
| Mainboard | Mini‑ITX architecture | |
| RAM | Kingston 4 GB DDR3 1600 | |
| Storage | 120 GB SSD | |
| Graphics | Integrated Intel HD Graphics 620 | |
| Power Supply | Integrated 12 V | |
| Network | Realtek 8111E Gigabit Ethernet, 2.4 GHz Wi‑Fi | |
| Optional Touch – Infrared | Integration Method | Seamlessly built‑in and embedded |
| Touch Technology | Infrared multi‑touch | |
| Touch Points | Standard 10‑point | |
| Input Method | Finger, stylus, or any non‑transparent object | |
| Response Time | 5 ms | |
| Positioning Accuracy | ±1.5 mm | |
| Touch Resolution | 3840 × 2160 | |
| Minimum Recognizable Touch Object | ≥2.5 mm | |
| Computer Recognition | Automatically recognized by OS | |
| Communication Interface | Full‑speed USB 2.0 | |
| Availability | Optional with PC configuration | |
| Optional Touch – Capacitive | Touch Method | Finger or capacitive stylus |
| Finger Touch Life | ≥35,000,000 touches | |
| Touch Activation Force | 10–60 g | |
| Response Time | <10 ms | |
| Touch Points | 10 points | |
| Operating Pressure | <10 g | |
| Touchscreen Thickness | 1.6 mm; glass thickness customizable | |
| Layer Structure | 1.1 mm glass + 0.125 mm top ITO film + 0.125 mm bottom ITO film | |
| Surface Hardness | ≥7H | |
| Light Transmittance | >85% | |
| Relative Humidity | 10%–90% RH at 40°C, non‑condensing | |
| Storage Temperature | −15°C to 40°C at <90% RH; 40°C to 70°C at <60% RH | |
| Touch Durability | 50,000,000 touches at same point under normal operation | |
| Availability | Optional with PC configuration | |
| Electrical & Environmental | Input Voltage | AC 100–240 V, 50–60 Hz |
| Speaker Output | 8 Ω, 5 W × 2 | |
| Total Power Consumption | <20 W | |
| Standby Power Consumption | <3 W | |
| Operating Temperature | −20°C to 50°C | |
| Storage Temperature | −20°C to 60°C | |
| Operating Humidity | 10%–90% RH, non‑condensing | |
| Packaging List | Power Cable | 1 |
| Keys | 1 set | |
| Warranty Card | 1 | |
| Certificate of Conformity | 1 | |
| Remote Control | 1 (included with standalone player version) | |
Test with the Audiences the Museum Serves
Curatorial approval alone does not prove usability. Observe children, adults, wheelchair users and groups at the planned viewing position. Check whether captions remain visible, whether reflections obscure the central subject and whether the loop is long enough to understand without causing congestion. Provide transcripts or alternative descriptions and ensure the installation does not create sensory overload in a quiet gallery. Visitor testing can reveal simple improvements before media is locked.
Plan for a Ten-Year Exhibit, Even if Hardware Changes
Archive source models, textures, narration, fonts, licenses and editable project files. Document the pixel map and playback configuration. Design the cabinet so the player and display components can be serviced without disturbing nearby collections. Avoid tying essential interpretation to an unsupported operating system or cloud service. A migration plan allows the museum to replace playback hardware later while preserving the intellectual and creative investment in the exhibit.
When a Conventional Animation Screen Is Better
If the learning objective depends on long captions, archival film or a linear documentary narrative, a standard display may communicate more clearly. Select the HoloBox when spatial form, layering or motion is essential to understanding. Many strong museum installations use both: holography for the spatial concept and a conventional accessible media station for detailed evidence. Choosing the right medium for each layer protects educational clarity.
![]()
Frequently Asked Questions
What museum subjects work well in a HoloBox?
Reconstruction, mechanisms, layered anatomy, inaccessible objects and spatial processes.
How can uncertainty in a reconstruction be shown?
Use a clear visual convention and explain which elements are evidence-based and which are interpretive.
What files should be preserved?
Editable 3D assets, final media, narration, fonts, licenses, pixel maps and technical documentation.
Project Inquiry
For an accurate proposal, send the intended venue, viewing directions, installation drawings, operating schedule, content concept and required control method. Final dimensions, resolution, imaging area, player, touch options, power and packing must be confirmed in the quotation and approved technical drawing before production.
![]()
![]()
If you would like to get the specification about above product, or you hope to discuss your requirements or need any additional information on our this product , then please do not hesitate to send us a inquiry and contact our sales team now.
Send your inquiry directly to us