Phyplus Spider Mesh
Low Latency, Low Power Large-Scale Self-Organizing Network Solution
About Phyplus Spider Mesh
The rapid increase in the number of endpoints in the IoT market necessitates robust large-scale wireless networking technology as fundamental technical support. However, existing networking technologies still face many challenges and difficulties, such as slow network provisioning, slow response, poor stability, and high power consumption. To address these pain points in large-scale device networking, Phyplus has developed its proprietary Mesh protocol, Phyplus Spider Mesh, based on its PHY62 series chips. This initiative represents a significant advancement in providing a reliable and efficient networking solution tailored for extensive IoT deployments.
Composition of Spider Mesh communication network
- Network Originator (ORG)
Acts as an initiator and interacts with all RSPs in the network
- Access control terminal (SBM)
Communicate with ORG to pass control information
Establish a connection with RSP to transmit OTA information
- Response Node (RSP)
Support low power self-organizing network
Support two-way communication and active reporting
Self-organizing network solution for colleges and universities
Through this scheduling, stable interactions are generated, and stable and instant-response two-way communication and ultra-fast networking are achieved between a single device and multiple different devices, achieving "second access to the network, second control, and second response".
Technical advantages
Rich group functions
- Single point of control
- Multi-point control
- Data Link
100K+
Supports ultra-large-scale network expansion
1:m&m:m
Support multiple networking modes
ORDER
Support mobile phone and terminal control remote upgrade
Secure encryption
Different networks use different network keys to ensure data frequency hopping network communication security
Strong anti-interference
Active frequency hopping is used to solve the 2.4GHz radio frequency interference problem
Code Conciseness
Save memory resources, equipment runs smoothly, technical solutions are easy to develop and maintain
Ultra-low power consumption
Average power consumption in multiple application scenarios <10uA
Phyplus Spider Mesh effectively complements existing networking solutions
| Parameters | Bluetooth Mesh | Zigbee | THE ACL | Traditional mesh | PHY SPD Mesh |
|---|---|---|---|---|---|
| Topology | m:m | m:m | 1:1 | 1:m | 1:m&m:m |
| Data transmission direction | Bidirectional | Bidirectional | Bidirectional | unidirectional |
Bidirectional |
| Communication Mode | asynchronous | asynchronous | asynchronous | asynchronous | synchronous |
| Adaptive frequency hopping | Not supported | Not supported | support | Not supported | support |
| Network expansion scale | About 1000 | More than 1000 | Only supports a limited number of connections | <1000 | Hyperscale |
| Low power consumption | Not supported | support | >10 microamperes | Not supported | <10 microamperes |
| Network establishment time | It takes 3 seconds for each device to join the network, and it takes a long time for a large number of devices to join the network | It takes a long time to connect a large number of devices to the network | / | It takes a long time to connect a large number of devices to the network | It only takes a few seconds |
| Response time | When the number of devices increases, a network storm will occur, which will last for more than 10 seconds. | The network is relatively stable, but the communication response time is long | / | Unstable network | Complete data interaction with all devices within seconds |
Application scenario - industrial-grade large-scale networking
Logistics Pickup
Warehouse Search
Industrial Control
Sensor Networks
Contact Us
3/F, Building 23, Lane 676, Wuxing Road, Pudong New Area, Shanghai