https://cablematic.com/en/products/housing-module-with-rs485-serial-gsm-gprs-dtu-model-usr-gprs232-701-4-UK073/
Housing module with RS485 serial GSM GPRS DTU model USR-GPRS232-701-4
- Module mounted in metal housing.
- Easy to use and configure.
- Industrial GPRS module. Operational through the GSM mobile telephony network.
- Configuration through SMS messages.
- Textual TTL interface.
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- Module mounted in metal housing.
- Easy to use and configure.
- Industrial GPRS module. Operational through the GSM mobile telephony network.
- Configuration through SMS messages.
- Textual TTL interface.
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USRIOT USR-GPRS232-701-4 module. GPRS Module DTU (data transfer unit) is a wireless terminal equipment that conveys serial data in IP data data or serial data, to be transmitted through the wireless communication network of GPRS mobile telephony. It allows the transmission of data under the TCP/IP protocol using GPRS technology. It allows to transmit through virtual private networks. Allows transmissionRS485 serial data through the GPRS mobile telephone network.
Specifications
- Module mounted in metal housing.
- Easy to use and configure.
- Industrial GPRS module. Operational through the GSM mobile telephony network.
- Configuration through SMS messages.
- Textual TTL interface.
- Compatible with the TCP/IP protocol.
- Operating frequency 4(CDMA, 3G, EDGE).
- Transmission of completely transparent data.
- Network connection of maximum 4 channels.
- Remote configuration support of all parameters.
- Configuration by sending AT commands through SMS.
- Authentication by password.
- It has RS485 serial port (3-pin terminal).
- Power connector (2-pin terminal).
- RSMA connector for external antenna connection (antenna included).
- Socket for inserting the SIM card.
- It is supplied with power supply.
- Gross Weight: 260 g
- Number of packages: 1
Technical terms
- GPRS
- Communication Series
- GSM
- TTL
- RS485
GPRS (General Packet Radio Service) is a key evolution in second-generation (GSM) mobile networks, introducing packet switching over an infrastructure originally designed for circuit switching.
This technology optimizes radio resource utilization by assigning channels only during actual data transfer, enabling permanent IP connectivity and more efficient spectrum use. The GPRS architecture integrates new logical nodes into the GSM core network, primarily the SGSN and GGSN, which handle packet routing and interfacing with external data networks like the Internet.
| Specification | Value/Description |
|---|---|
| Theoretical Data Rate | 56 kbps to 114 kbps |
| Switching Method | Packet Switching |
| Coding Schemes | CS-1, CS-2, CS-3, CS-4 |
| Generation | 2.5G |
The implementation of GPRS served as the catalyst for the transition toward mobile broadband services, enabling WAP browsing and multimedia messaging (MMS) for the first time. Its current relevance lies in its persistence as a critical fallback layer for IoT devices and embedded systems requiring global coverage and redundancy in areas where LTE or 5G technologies are not feasible due to hardware constraints.
Terminal Operational Classification
Devices are categorized by their ability to handle voice and data services: Class A allows simultaneous use; Class B connects to both but suspends data during calls; Class C requires manual switching between modes.
Main Advantages
- "Always-on" connectivity without call setup latency for data.
- Billing based on data volume rather than connection time.
- Compatibility with IP and X.25 protocols.
- Dynamic radio spectrum optimization via multiplexing.
GPRS laid the foundation for the packet-based infrastructure that defines modern mobility.
