RSWM-4X4LR
Modern RF signal routing systems require unrestricted access to various signal sources such as antennas or signal generators. The RSWM-4X4LR is a broadband RF switching matrix and provides an innovative and efficient solution in laboratory, test, or validation environments to grant multiple receivers unrestricted access to a variety of signal sources. The large frequency bandwidth up to over 4 GHz covers all commercial broadcasting services, including GNSS and SDARS. The non-blocking architecture allows free access to all signal sources through any of its outputs. Multiple outputs can be simultaneously connected to the same signal source.
non-blocking Broadcast 100 kHz ... 4000 MHz 4 inputs, 4 outputs guided webinterface
Wear-free Solid State Switches
The RSWM-4X4LR incorporates modern solid-state switching elements, guaranteeing rapid response to operational inputs and an unlimited number of switching cycles with minimal maintenance requirements.
High Channel Isolation
To prevent unintentional signal coupling between different signal types, the device provides high channel isolation. Strong and weak signals in adjacent radio channels do not affect each other.
Versatile Control
The RSWM-4X4LR is equipped with multiple control options for user convenience. It features a local MMI on the front panel, as well as LAN and USB interfaces. Depending on the customer's needs, the system can be managed using the intuitive web-based graphical user interface or through SCPI-based ASCII commands via its interface ports.
Synchronous Operation
The RSWM-4X4LR offers two switching modes:
- Direct: every switching operation is executed after reception of the command.
- Synchronous: all switching commands are stored until a "SYNC" command executes the switching operation synchronously.
External Triggering
Similar to several other products from Becker Nachrichtentechnik GmbH, the RSWM-4X4LR includes a TRIGGER IO port. This physical interface enables the device to execute switching operations synchronously across multiple matrices, triggered by hardware signals.
Latest modification: 11.01.2018