Place of Origin:
ShenZhen, China
Brand Name:
ZXTLCD
Certification:
CE/Rohs/FCC
Model Number:
ZXTLCD-TLCD860VCT
The 86-inch cabinet holds the real product or scenic installation. Its drawing must define internal volume, load, access, lock, lighting, ventilation and service panels. The PC should sit in a protected electronics zone that technicians can reach without opening the merchandise area.
Shopping-mall placement also requires stable anchoring, protected cables and clear circulation around the touch position.
Confirm panel resolution, orientation, touch technology, point count, controller and driver support. Place interface controls within realistic reach; the full 86-inch area is not automatically a comfortable touch zone.
Test the complete glass and touch stack under mall lighting, including edge accuracy and cleaning conditions.
Specify processor, memory, storage, graphics, operating system, network ports and recovery image against the application. Define automatic login, kiosk mode, scheduled restart and remote support.
Record the approved hardware configuration because later PC substitutions may require driver or performance retesting.
| 86 inch AI Virtual Digital Human 3D Interactive Hologram | ||
| Display Panel | Screen Size | 86 inches |
| Panel Type | a‑Si TFT IPS Transparent LCD Panel | |
| Panel Model | HNT8601 | |
| Native Resolution | 3840 × 2160 pixels (4K UHD) | |
| Sub‑Pixel Pitch | 0.1645 × 0.4935 mm (H × V) | |
| Pixel Format | RGB Vertical Stripe | |
| Pixel Pitch | 0.4935 × 0.4935 mm (H × V) | |
| Active Display Area | 1895.04 × 1065.96 mm (H × V) | |
| Panel Shape | Flat Rectangular Panel | |
| Aspect Ratio | 16:9 | |
| Panel Transmittance | >75% | |
| Contrast Ratio | 4200:1 (Typical) | |
| Viewing Angle | 89°/89°/89°/89° (Minimum), CR ≥10 | |
| Display Mode | IPS, Normally Black, Transmissive | |
| Optimum Viewing Direction | All Viewing Angles | |
| Response Time | 8 ms (Typical, Gray‑to‑Gray) | |
| Display Colors | 16.7 Million / 1.07 Billion Colors, 8‑bit / 8‑bit + Dithering | |
| Color Gamut | 71% NTSC | |
| Panel Input Voltage | AC 110–220V | |
| Refresh Rate | 60 Hz | |
| Panel Signal Interface | LVDS | |
| Input Interfaces | HDMI, VGA, USB and Audio Input | |
| Operating Temperature | -20°C to 80°C | |
| Storage Temperature | -30°C to 90°C | |
| Operating Humidity | 10%–90% RH | |
| Storage Humidity | 5%–90% RH | |
| Power Supply | AC 100–240V, 50/60 Hz | |
| Power Consumption | <480W | |
| Standby Power Consumption | <3W | |
| Installation Options | Desktop, Floor‑Standing or Interactive Version | |
| Product Dimensions | Refer to the Mechanical Drawing | |
| USB Plug‑and‑Play Player | Operating System | Standalone Plug‑and‑Play System; No Windows OS Required |
| Start‑Up Mode | Automatically Starts Loop Playback After Power‑On | |
| Input Ports | 1 × USB 2.0, 1 × HDMI | |
| Default Storage Medium | USB Flash Drive | |
| Optional Storage Medium | SD Card | |
| Content Update | Automatically Copies Content from USB | |
| OSD Languages | English and Chinese | |
| Supported Video Format | MP4 | |
| Supported Audio Format | MP3 | |
| Supported Image Format | JPG | |
| Supported Text Format | TXT | |
| Audio Output | Built‑In Power Amplifier | |
| Playback Modes | Single‑File Repeat or All‑Files Loop Playback | |
| Android Media Player | CPU | Quad‑Core Cortex‑A17, Up to 1.8 GHz |
| GPU | Mali‑T764 | |
| Operating System | Android 7.1 | |
| RAM | 2GB DDR3 | |
| Internal Storage | 16GB eMMC | |
| External Storage | SATA, USB, SD Card or CF Card | |
| Output Resolution | 1920 × 1080, Full HD | |
| Playback Modes | Loop Playback, Scheduled Playback and Transition Effects | |
| Network Connectivity | Ethernet and Wi‑Fi; 3G Optional | |
| Remote Control | Infrared Remote Control Supported | |
| Memory Card Support | SD and CF Cards | |
| Supported Video Formats | WMV, AVI, FLV, RM, RMVB, MPEG, TS, MP4 and More | |
| Supported Image Formats | BMP, JPEG, PNG and GIF | |
| Supported Network Protocols | TCP/IP, PPPoE, ICMP, DHCP, DNS, FTP and HTTP | |
| USB 2.0 Ports | 2 × USB Host Ports for Mouse, Keyboard and Other Peripheral Devices | |
| RJ45 Ethernet | 1 × RJ45 Port, 10/100 Mbps | |
| Wireless Network | 2.4 GHz Wi‑Fi, IEEE 802.11n, Up to 150 Mbps | |
| TF Card Slot | 1 × TF/MicroSD Card Slot | |
| PC – Entry‑Level | CPU | Intel 1037U, Dual‑Core, Dual‑Thread, 1.8 GHz |
| Motherboard | Mini‑ITX Architecture, Intel Bay Trail SoC Chipset | |
| Memory | Kingston 4GB DDR3 1600 MHz | |
| Storage | 120GB SSD | |
| Graphics | Integrated Intel HD Graphics with Dynamic Video Memory Technology (DVMT) | |
| Power Supply | Integrated 12V Power Supply | |
| Network | Realtek 8111E Gigabit Ethernet and 2.4 GHz Wi‑Fi | |
| PC – Standard | CPU | 3rd Generation Intel Core i3, Dual‑Core, Four‑Thread, 1.8 GHz, 17W |
| Motherboard | Mini‑ITX Architecture, Intel HM76 Chipset | |
| Memory | Kingston 4GB DDR3 1600 MHz | |
| Storage | 120GB SSD | |
| Graphics | Integrated Intel HD Graphics 4000 | |
| Power Supply | Integrated 12V Power Supply | |
| Network | Realtek 8111E Gigabit Ethernet and 2.4 GHz Wi‑Fi | |
| PC – Advanced | CPU | 3rd Generation Intel Core i5, Dual‑Core, Four‑Thread, 1.7 GHz, 17W |
| Motherboard | Mini‑ITX Architecture, Intel HM76 Chipset | |
| Memory | Kingston 4GB DDR3 1600 MHz | |
| Storage | 120GB SSD | |
| Graphics | Integrated Intel HD Graphics 4000 | |
| Power Supply | Integrated 12V Power Supply | |
| Network | Realtek 8111E Gigabit Ethernet and 2.4 GHz Wi‑Fi | |
| PC – Premium | CPU | 7th Generation Intel Core i7, Dual‑Core, Four‑Thread, 2.7 GHz, 15W |
| Motherboard | Mini‑ITX Architecture | |
| Memory | Kingston 4GB DDR3 1600 MHz | |
| Storage | 120GB SSD | |
| Graphics | Integrated Intel HD Graphics | |
| Power Supply | Integrated 12V Power Supply | |
| Network | Realtek 8111E Gigabit Ethernet and 2.4 GHz Wi‑Fi | |
| Infrared Touch Frame | Touch Technology | Infrared Touch |
| Integration Method | Seamlessly Integrated, Embedded Design | |
| Reported Touch Resolution | 32768 × 32768, Driver‑Free | |
| Activation Force | No Pressure Required | |
| Light Transmittance | >92% | |
| Multi‑Touch Response Time | 10–15 ms | |
| Single‑Touch Response Time | 7 ms | |
| Minimum Touch Object Size | 4 × 4 mm | |
| Touch Object Size Recognition | Supported | |
| Touch Interface | USB | |
| Touch Scan Rate | ≥110 Hz | |
| Communication Interface | USB 2.0 Full‑Speed | |
| Power Supply | 1 × USB | |
| Operating Voltage | DC 5.0V ±5% | |
| Average Current | ≤200 mA | |
| Power Consumption | ≤1.0W | |
| LED Service Life | 60,000 Hours | |
| Fault Tolerance | Remains Operational with Less Than 10% Non‑Adjacent Sensor Failure | |
| Operating Humidity | Up to 90% RH at 0°C to 40°C, Non‑Condensing | |
| Operating Temperature | -10°C to 50°C | |
| Storage Temperature | -20°C to 60°C | |
| ESD Protection | EN 61000‑4‑2:2008, Level 3; 4 kV Contact Discharge and 8 kV Air Discharge | |
| Ambient Light Resistance | Excellent | |
| Firmware Upgrade | USB Firmware Upgrade | |
| Multi‑Touch OS Support | Win 10, Win 8, Win 7 and Android | |
| Single‑Touch OS Support | Win XP, macOS and Linux | |
| Projected Capacitive Touchscreen | Touch Technology | Projected Capacitive Touch |
| Input Method | Finger or Stylus | |
| Number of Touch Points | 10‑Point Multi‑Touch | |
| Activation Force | 10–60 g | |
| Touch Durability | ≥35 Million Touches | |
| Minimum Pressure | <10 g | |
| Surface Hardness | ≥7H | |
| Storage Conditions | -15°C to 40°C at <90% RH; 40°C to 70°C at <60% RH | |
| Operating Humidity | 10%–90% RH at 40°C, Non‑Condensing | |
| Response Time | <10 ms | |
| Light Transmittance | >85% | |
| Touchscreen Structure | 1.1 mm Glass + 0.125 mm Upper ITO Film + 0.125 mm Lower ITO Film | |
| Position Durability | 50 Million Touches at the Same Position | |
| Standard Packing List | Power Cable | 1 |
| Warranty Card | 1 | |
| Remote Control | 1 | |
| Cabinet Key | 1 | |
| Certificate of Conformity | 1 | |
The term SDK is not a complete integration scope. List the events and commands the application needs: touch data, media control, sensors, camera, lighting, product rotation, CRM handoff or analytics. Identify the protocol, documentation, sample code and responsible developer.
Define behaviour when an external service or network is unavailable. A local fallback should keep the display useful.
Use the mall or customer’s approved network, account and software-update policies. Restrict public access to the operating system and protect any collected data. Assign ownership for cabinet hardware, PC image, application, API and third-party services.
Acceptance should reproduce the final system, not test each layer in isolation.
Confirm the exact SDK, API documentation and supported functions in the project scope.
Potentially, after verifying the CMS protocol, player and security requirements.
The buyer, integrator or supplier may do so; responsibility and deliverables must be stated.
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Build a test matrix across physical inputs, local application, SDK calls and cloud services. A touch may select a product, trigger cabinet lighting, request data and send an analytics event; each step needs an expected response and timeout. Test normal use, repeated commands, invalid data, network loss and restart. Do not accept individual component demonstrations as proof that the full journey works.
Create logs that help technicians locate a failure without exposing personal information. The application should distinguish a disconnected sensor from an unavailable web service and provide a controlled fallback to visitors. At handover, deliver the application installer, approved PC image, configuration file, API documentation and support contacts. Agree on how operating-system, driver and application updates are tested before they reach a live shopping-mall cabinet.
An SDK project should include version support. Ask which operating systems, programming languages and hardware revisions are covered, how breaking changes are communicated and whether sample code is maintained. If the application depends on a cloud API, identify rate limits, authentication and service term. Avoid building essential cabinet recovery solely around an undocumented command. A small proof of concept should exercise the highest-risk integration before the enclosure and full user interface are finalized.
Provide the application architecture, required API events, PC specification, network policy, object drawing and shopping-mall installation plan. ZXTLCD can define the cabinet and hardware interface around the software scope.
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