Con el apoyo de
Únase a la conversación
The days of the "blind LED controller" are over. With the NovaStar H Series API, your LED wall becomes a smart, responsive, and integrated digital canvas.
set:brightness
| Endpoint | Method | Description | |----------|--------|-------------| | /api/v1/device/info | GET | Model, firmware, uptime | | /api/v1/input/current | GET | Active input index | | /api/v1/input/set | POST | "input": 3 | | /api/v1/layer/id/bounds | GET | Layer position and size | | /api/v1/preset/recall | POST | "presetId": 5 | | /api/v1/system/reboot | POST | Reboot the processor |
Dynamically route hardware input cards to specific output layers. novastar h series api
: It is compatible with hardware like the Stream Deck , allowing API commands to be mapped to physical buttons for functions like screen blackouts or OSD (On-Screen Display) toggling. 4. Technical Resource Access
Note: Command structures can vary slightly between firmware iterations. Always consult the official NovaStar API documentation matching your exact H-Series firmware version. 1. Recalling a Preset
The demand for massive, high-resolution video walls requires powerful hardware and intelligent, automated control. The NovaStar H Series enterprise-grade video wall splicers stand at the forefront of this technology. However, the true power of these processors lies in their integration capabilities. By leveraging the , systems integrators, AV developers, and IT administrators can bypass manual web control interfaces to build bespoke, automated, and highly responsive AV ecosystems . The days of the "blind LED controller" are over
Virtual canvases mapped to physical LED or LCD displays. Layers: Individual video windows placed onto a screen.
The is essential for any professional integrator looking to push the boundaries of LED display control. By leveraging these API capabilities, you can turn a passive video wall into an active, intelligent, and fully automated component of a modern A/V system.
For applications requiring ultra‑fast response times—such as real‑time preset switching in live events or broadcast environments—the NovaStar H Series supports a command‑based protocol over UDP and RS232 serial communication. : It is compatible with hardware like the
You sent a string instead of an integer (e.g., "brightness": "50" instead of 50 ). Fix: Strictly adhere to JSON types. Booleans must be true/false , not "true" .
LED sending cards, HDMI multi-viewers, and preview cards.
Before integrating into production systems, thoroughly test API calls using tools such as (for HTTP API) or MIB Browser (for SNMP). The COEX API website integrates an Apifox plugin that allows direct testing of API endpoints. The official API test environment can be accessed at https://api-coex150-novastar.apifox.cn/en .
Here are the most valuable endpoints for developers working with the H series API. Use these to control your LED wall programmatically.
NovaStar H Series API: The Ultimate Developer's Guide to Video Wall Integration
The days of the "blind LED controller" are over. With the NovaStar H Series API, your LED wall becomes a smart, responsive, and integrated digital canvas.
set:brightness
| Endpoint | Method | Description | |----------|--------|-------------| | /api/v1/device/info | GET | Model, firmware, uptime | | /api/v1/input/current | GET | Active input index | | /api/v1/input/set | POST | "input": 3 | | /api/v1/layer/id/bounds | GET | Layer position and size | | /api/v1/preset/recall | POST | "presetId": 5 | | /api/v1/system/reboot | POST | Reboot the processor |
Dynamically route hardware input cards to specific output layers.
: It is compatible with hardware like the Stream Deck , allowing API commands to be mapped to physical buttons for functions like screen blackouts or OSD (On-Screen Display) toggling. 4. Technical Resource Access
Note: Command structures can vary slightly between firmware iterations. Always consult the official NovaStar API documentation matching your exact H-Series firmware version. 1. Recalling a Preset
The demand for massive, high-resolution video walls requires powerful hardware and intelligent, automated control. The NovaStar H Series enterprise-grade video wall splicers stand at the forefront of this technology. However, the true power of these processors lies in their integration capabilities. By leveraging the , systems integrators, AV developers, and IT administrators can bypass manual web control interfaces to build bespoke, automated, and highly responsive AV ecosystems .
Virtual canvases mapped to physical LED or LCD displays. Layers: Individual video windows placed onto a screen.
The is essential for any professional integrator looking to push the boundaries of LED display control. By leveraging these API capabilities, you can turn a passive video wall into an active, intelligent, and fully automated component of a modern A/V system.
For applications requiring ultra‑fast response times—such as real‑time preset switching in live events or broadcast environments—the NovaStar H Series supports a command‑based protocol over UDP and RS232 serial communication.
You sent a string instead of an integer (e.g., "brightness": "50" instead of 50 ). Fix: Strictly adhere to JSON types. Booleans must be true/false , not "true" .
LED sending cards, HDMI multi-viewers, and preview cards.
Before integrating into production systems, thoroughly test API calls using tools such as (for HTTP API) or MIB Browser (for SNMP). The COEX API website integrates an Apifox plugin that allows direct testing of API endpoints. The official API test environment can be accessed at https://api-coex150-novastar.apifox.cn/en .
Here are the most valuable endpoints for developers working with the H series API. Use these to control your LED wall programmatically.
NovaStar H Series API: The Ultimate Developer's Guide to Video Wall Integration
Con el apoyo de