Building on three decades of experience in the design and manufacture of low-power radio frequency (RF) products, today RFM is enabling OEM design engineers to connect and network more devices, equipment, and processes than ever before.
Depth. Founded in 1979 to design and manufacture low-power RF products using surface acoustic wave (SAW) technology, RFM products now include RF communications components, subsystem short-range radios, RF modules and boxed radios for a broad range of industrial, commercial and consumer applications.
Breadth. With the acquisition of modules manufacturer Cirronet in 2006, RFM’s product portfolio provides a comprehensive selection of wireless standards and proprietary-based communications and networking products.
M2M. Wireless technology is the key to machine-to-machine (M2M) connectivity. When embedded into OEM next-generation products, RFM products enable end-users to connect, communicate, control and monitor wireless-enabled OEM devices over the Internet and private networks.
Everything you need to get a Wi-Fi wireless sensor node and running in minutes. The WSN802GDK kit allows for full demonstration or development of the RFM WSN802G transceiver modules. The WSN802G transceiver module is a low cost, robust solution for 802.11g sensor networks. The WSN802G’s very low sleep current makes long life battery operation practical. The WSN802G module includes analog, digital and serial I/O, providing the flexibility and versatility needed to serve a wide range of sensor network applications. The WSN802G module is easy to integrate and is compatible with standard 802.11b/g access points. [more]
DM1810-434-DK 433.92 MHz Mesh Developer Kit
The DM1810-434 Development Kits give you a way to get a wireless mesh networking application at 434 MHz up and running in minutes. Both Development Kits are built around the RFM DM1810-434 Wireless Modules for embedded low power mesh networking applications. With the DM1810 Quick Kit you can quickly and easily prototype an embedded wireless mesh networking solution for your application. With a DM1810 Pro Kit you can fully develop and test a custom MESH network application. [more]
DM1810-916-DK 916.5 Mesh Developer Kit
The DM1810-916-DK give you a way to get a wireless mesh networking application at 916 MHz up and running in minutes. Both Development Kits are built around the RFM DM1810-916 Wireless Modules for embedded low power mesh networking applications. With the DM1810 Quick Kit you can quickly and easily prototype an embedded wireless mesh networking solution for your application. With a DM1810 Pro Kit you can fully develop and test a custom MESH network application. [more]
XDM2510HDK 2.4 GHz WirelessHART Developer Kit
Everything you need to get a 4 node network up and running in minutes
4 developer kit boards providing a simple means to interface to your device
XG2510HE gateway to control the network activity and provide either Ethernet or serial connectivity
Utility programs that demonstrate network operation and performance
Full documentation to speed integration into your product
The DNT900 FHSS transceiver module is a low cost, high-power solution for point-to- I/O point and point-to-multipoint wireless systems in the 900 MHz ISM band. The RF output power of the DNT900 can be set from 1 mW to 1 W, and the RF data rate can be set from 38.4 to 500 kb/s. The DNT900 receiver includes a low-noise preamplifier protected by two SAW filters, providing an excellent combination of receiver sensitivity and out-ofband interference rejection. The DNT900 module includes analog, digital and serial I/O, providing the flexibility and versatility to serve applications ranging from cable replacements to sensor networks. The DNT900 transceiver module is easy to integrate and provides robust wireless communications up to 40 miles in lineof- sight installations and tree routing for extended coverage. [more]
DNT2400DK 2.4 GHz FHSS Developer Kit
The DNT2400 Development Kit is available as part number: DNT2400DK The DNT2400 FHSS transceiver module is a low cost, high-power solution for point-to- I/O point and point-to-multipoint wireless systems in the 2.4 GHz ISM band. The RF output power of the DNT2400 can be set from 1 mW to 100 mW, and the RF data rate can be set from 38.4 to 500 kb/s. The DNT2400 receiver includes a low-noise preamplifier protected by two SAW filters, providing an excellent combination of receiver sensitivity and out-ofband interference rejection. The DNT2400 module includes analog, digital and serial I/O, providing the flexibility and versatility to serve applications ranging from cable replacements to sensor networks. The DNT2400 supports point-to-point, point-to-multipioint, peer-to-peer, and tree routing networks. [more]
WIT910DK 900 MHz FHSS Developer Kit
Each WIT OEM Module Developer’s Kits contain two selfcontained wireless modems built around specific OEM 910ules. Additionally, two OEM modules are included in the kit. The self-contained units [more]
WIT910SDK 900 MHz FHSS Developer Kit
Each WIT OEM Module Developer’s Kits contain two selfcontained wireless modems built around specific OEM modules. Additionally, two OEM modules are included in the kit. The self-contained units [more]
WIT2410DK 2.4 GHz FHSS Developer Kit
Each WIT OEM Module Developer’s Kits contain two selfcontained wireless modems built around specific OEM modules. Additionally, two OEM modules are included in the kit. The self-contained units allow developers to get up and running quickly using standard RS-232 interfaces without having to build a 3.3V level serial interface. The self-contained modems include LEDs to provide modem status information visually, and a built-in rechargeable battery pack allows the developer to use the modems without being tethered to a power source. This provides a simple way to test the range of the radios. Other than the true RS-232 signals of the serial interface, the self-contained modems operate exactly as the OEM modules. [more]
WIT2410SDK 2.4 GHz FHSS Developer Kit
Each WIT OEM Module Developer’s Kits contain two selfcontained wireless modems built around specific OEM modules. Additionally, two OEM modules are included in the kit. The self-contained units allow developers to get up and running quickly using standard RS-232 interfaces without having to build a 3.3V level serial interface. The self-contained modems include LEDs to provide modem status information visually, and a built-in rechargeable battery pack allows the developer to use the modems without being tethered to a power source. This provides a simple way to test the range of the radios. Other than the true RS-232 signals of the serial interface, the self-contained modems operate exactly as the OEM modules. [more]
WIT2411DK 2.4 GHz FHSS Developer Kit
Each WIT OEM Module Developer’s Kits contain two selfcontained wireless modems built around specific OEM modules. Additionally, two OEM modules are included in the kit. The self-contained units allow developers to get up and running quickly using standard RS-232 interfaces without having to build a 3.3V level serial interface. The self-contained modems include LEDs to provide modem status information visually, and a built-in rechargeable battery pack allows the developer to use the modems without being tethered to a power source. This provides a simple way to test the range of the radios. Other than the true RS-232 signals of the serial interface, the self-contained modems operate exactly as the OEM modules. [more]
WIT2411SDK 2.4 GHz FHSS Developer Kit
Each WIT OEM Module Developer’s Kits contain two selfcontained wireless modems built around specific OEM modules. Additionally, two OEM modules are included in the kit. The self-contained units allow developers to get up and running quickly using standard RS-232 interfaces without having to build a 3.3V level serial interface. The self-contained modems include LEDs to provide modem status information visually, and a built-in rechargeable battery pack allows the developer to use the modems without being tethered to a power source. This provides a simple way to test the range of the radios. Other than the true RS-232 signals of the serial interface, the self-contained modems operate exactly as the OEM modules. [more]
WIT2450DK 2.4 GHz FHSS Developer Kit
Each WIT OEM Module Developer’s Kits contain two selfcontained wireless modems built around specific OEM modules. Additionally, two OEM modules are included in the kit. The self-contained units allow developers to get up and running quickly using standard RS-232 interfaces without having to build a 3.3V level serial interface. The self-contained modems include LEDs to provide modem status information visually, and a built-in rechargeable battery pack allows the developer to use the modems without being tethered to a power source. This provides a simple way to test the range of the radios. Other than the true RS-232 signals of the serial interface, the self-contained modems operate exactly as the OEM modules. [more]
ZMN2405HPDK 2.4 GHz ZigBee Developer Kit
The ZMN2405HPDK Developer’s Kit comprises two high power serial interface boards built around the 100mW ZigBee ZMN2405HP module. The ZMN2405DK allows developers to get up and running quickly using either USB or RS-232 interfaces.
The self-contained modems have momentary switches, LEDs, thermister, and potentiometer and can operate on standard 9V akaline batteries. This provides a simple, effective way to test the range and operation of the radios in the real-time environment. The onboard I/O can be disconnected, allowing user inputs to be connected to the module inputs using connectors.
The ZBDemo program included on the supplied CD allows the reading and writing of end device inputs and outputs as well as network discovery and configuration. If your individual wireless requirements could benefit from the application of ZigBee technology, the ZMN2405HPDK is the premier first step. The ZMN2405HPDK should be selected also by those wishing to use the RFM ZMN2430HP
The ZMN2430ADK Developer’s Kit comprises two high power serial interface boards built around the 1mW ZigBee ZMN2430A module. The ZMN2430ADK allows developers to get up and running quickly using either USB or RS-232 interfaces.
The self-contained modems have momentary switches, LEDs, thermister, and potentiometer and can operate on standard 9V akaline batteries. This provides a simple, effective way to test the range and operation of the radios in the real-time environment. The onboard I/O can be disconnected, allowing user inputs to be connected to the module inputs using connectors. The ZBDemo program included on the supplied CD allows the reading and writing of end device inputs and outputs as well as network discovery and configuration. If your individual wireless requirements could benefit from the application of ZigBee technology, the ZMN2430ADK is the premier first step.
The ZMN2430HPADK Developer’s Kit comprises two high power serial interface boards built around the 100mW ZigBee ZMN2430HPA module. The ZMN2430HPADK allows developers to get up and running quickly using either USB or RS-232 interfaces.
The self-contained modems have momentary switches, LEDs, thermister, and potentiometer and can operate on standard 9V akaline batteries. This provides a simple, effective way to test the range and operation of the radios in the real-time environment. The onboard I/O can be disconnected, allowing user inputs to be connected to the module inputs using connectors.
The ZBDemo program included on the supplied CD allows the reading and writing of end device inputs and outputs as well as network discovery and configuration. If your individual wireless requirements could benefit from the application of ZigBee technology, the ZMN2405HPDK is the premier first step. The ZMN2430HPADK should be selected also by those wishing to use the RFM [more]
LPR2430ADK 2.4 GHz 802.15.4 Developer Kit
The LPR2430ADK kit allows for full demonstration or development of the LPR2430 transceiver modules. The LPR2430 series transceivers provide a low cost solution for point-to-point, pointtomultipoint and peer-to-peer wireless networks. LPR2430 series modules provide the flexibility and versatility to serve applications ranging from cable replacements to sensor networks. Based on the IEEE 802.15.4 wireless standard, LPR2430 series modules are easy to integrate and provide robust wireless communications in applications where full mesh network operation is not required. The LPR2430 series modules include RFM’s CNL V2.0 Network Layer firmware, which features a flexible and simple-to-use Application Programming Interface. [more]
LPR2430DK 2.4 GHz 802.15.4 Developer Kit
The LPR2400DK kit allows for full demonstration or development of the LPR2430 transceiver modules. The LPR2430 series transceivers provide a low cost solution for point-to-point, pointtomultipoint and peer-to-peer wireless networks. LPR2430 series modules provide the flexibility and versatility to serve applications ranging from cable replacements to sensor networks. Based on the IEEE 802.15.4 wireless standard, LPR2430 series modules are easy to integrate and provide robust wireless communications in applications where full mesh network operation is not required. The LPR2430 series modules include RFM’s CNL V2.0 Network Layer firmware, which features a flexible and simple-to-use Application Programming Interface. [more]
LPR2430ERADK 2.4 GHz 802.15.4 Developer Kit
The LPR2430ERADK kit allows for full demonstration or development of the LPR2430 transceiver modules. The LPR2430 series transceivers provide a low cost solution for point-to-point, pointtomultipoint and peer-to-peer wireless networks. LPR2430 series modules provide the flexibility and versatility to serve applications ranging from cable replacements to sensor networks. Based on the IEEE 802.15.4 wireless standard, LPR2430 series modules are easy to integrate and provide robust wireless communications in applications where full mesh network operation is not required. The LPR2430 series modules include RFM’s CNL V2.0 Network Layer firmware, which features a flexible and simple-to-use Application Programming Interface. [more]
LPR2430ERDK 2.4 GHz 802.15.4 Developer Kit
The LPR2430ERDK kit allows for full demonstration or development of the LPR2430 transceiver modules. The LPR2430 series transceivers provide a low cost solution for point-to-point, pointtomultipoint and peer-to-peer wireless networks. LPR2430 series modules provide the flexibility and versatility to serve applications ranging from cable replacements to sensor networks. Based on the IEEE 802.15.4 wireless standard, LPR2430 series modules are easy to integrate and provide robust wireless communications in applications where full mesh network operation is not required. The LPR2430 series modules include RFM’s CNL V2.0 Network Layer firmware, which features a flexible and simple-to-use Application Programming Interface.
RFM´s "A" series ASH Transceiver Development Kits demonstrate operation at an "air" data rate of 2 kbps, using a packet data link layer (MAC) protocol implemented in an 8051 microprocessor core. Typical outdoor range for the standard development kits is 150 to 200 meters. These kits are recommended for exploring long range, low data rate applications.
The WSN802GDK-A kit allows for full demonstration or development of the WSN802G transceiver modules. The WSN802G transceiver module is a low cost, robust solution for 802.11g sensor networks. The WSN802G’s very low sleep current makes long life battery operation practical. The WSN802G module includes analog, digital and serial I/O, providing the flexibility and versatility needed to serve a wide range of sensor network applications. The WSN802G module is easy to integrate and is compatible with standard 802.11b/g access points.
RFM´s standard ASH Transceiver Development Kits demonstrate operation at an "air" data rate of 22.5 kbps, using a packet data link layer (MAC) protocol implemented in an 8051 microprocessor core. Typical outdoor range for the standard development kits is 60 to 75 meters. These kits are recommended for exploring medium range, medium data rate applications.
RFM´s "A" series ASH Transceiver Development Kits demonstrate operation at an "air" data rate of 2 kbps, using a packet data link layer (MAC) protocol implemented in an 8051 microprocessor core. Typical outdoor range for the standard development kits is 150 to 200 meters. These kits are recommended for exploring long range, low data rate applications.
RFM´s standard ASH Transceiver Development Kits demonstrate operation at an "air" data rate of 22.5 kbps, using a packet data link layer (MAC) protocol implemented in an 8051 microprocessor core. Typical outdoor range for the standard development kits is 60 to 75 meters. These kits are recommended for exploring medium range, medium data rate applications.
RFM´s "A" series ASH Transceiver Development Kits demonstrate operation at an "air" data rate of 2 kbps, using a packet data link layer (MAC) protocol implemented in an 8051 microprocessor core. Typical outdoor range for the standard development kits is 150 to 200 meters. These kits are recommended for exploring long range, low data rate applications.
RFM´s standard ASH Transceiver Development Kits demonstrate operation at an "air" data rate of 22.5 kbps, using a packet data link layer (MAC) protocol implemented in an 8051 microprocessor core. Typical outdoor range for the standard development kits is 60 to 75 meters. These kits are recommended for exploring medium range, medium data rate applications.
RFM SAW-Based Radio Products include RFM second and third generation ultra-low-power, proprietary amplifier-sequenced hybrid (ASH) radio architecture. RFM SAW-Based radios are integrated RF ICs with quartz SAW filtering and frequency control components built into a single hybrid to greatly simplify and speed up the RF design task. No external RF filters, IF filters, resonators or crystals are required. RFM SAW-based radios include transmitters, receivers, and transceivers operating in 300 - 1000 MHz frequencies. Featuring OOK / ASK for singlechannel frequency and high out-of-band rejection where 80 dBm is typical, RFM second and third generation SAW-based radios are easy to optimize for a variety of applications.
The DR7000-DK kit allows for full demonstration or development of the third-generation (3G) TR7000 Virtual Wire device. The kit provides “Out of the box” operation with or without the accompanying software. 2-way Range Test capability is included by simply snapping on the included 9V battery, turn on power, and configuring the opposite board for transmit. A small area is available for custom development with other popular microprocessors. The DR7000 Data Radio boards are configured to operate at a data rate of 4.8 kbps. The kits are shipped with a pair of data radio boards and matching antennas. Data Radio boards with antennas can be purchased separately for development of applications.
The DR7001-DK kit allows for full demonstration or development of the third-generation (3G) TR7001 Virtual Wire device. The kit provides “Out of the box” operation with or without the accompanying software. 2-way Range Test capability is included by simply snapping on the included 9V battery, turn on power, and configuring the opposite board for transmit. A small area is available for custom development with other popular microprocessors. The DR7001 Data Radio boards are configured to operate at a data rate of 4.8 kbps. The kits are shipped with a pair of data radio boards and matching antennas. Data Radio boards with antennas can be purchased separately for development of applications.
The DR7002-DK kit allows for full demonstration or development of the third-generation (3G) TR7002 Virtual Wire device. The kit provides “Out of the box” operation with or without the accompanying software. 2-way Range Test capability is included by simply snapping on the included 9V battery, turn on power, and configuring the opposite board for transmit. A small area is available for custom development with other popular microprocessors. The DR7002 Data Radio boards are configured to operate at a data rate of 4.8 kbps. The kits are shipped with a pair of data radio boards and matching antennas. Data Radio boards with antennas can be purchased separately for development of applications.
The DR7003-DK kit allows for full demonstration or development of the third-generation (3G) TR7003 Virtual Wire device. The kit provides “Out of the box” operation with or without the accompanying software. 2-way Range Test capability is included by simply snapping on the included 9V battery, turn on power, and configuring the opposite board for transmit. A small area is available for custom development with other popular microprocessors. The DR7003 Data Radio boards are configured to operate at a data rate of 4.8 kbps. The kits are shipped with a pair of data radio boards and matching antennas. Data Radio boards with antennas can be purchased separately for development of applications.
The DR8000-DK kit allows for full demonstration or development of the third-generation (3G) TR8000 Virtual Wire device. The kit provides “Out of the box” operation with or without the accompanying software. 2-way Range Test capability is included by simply snapping on the included 9V battery, turn on power, and configuring the opposite board for transmit. A small area is available for custom development with other popular microprocessors. The DR8000 Data Radio boards are configured to operate at a data rate of 4.8 kbps. The kits are shipped with a pair of data radio boards and matching antennas. Data Radio boards with antennas can be purchased separately for development of applications.
The DR8001-DK kit allows for full demonstration or development of the third-generation (3G) TR8001 Virtual Wire device. The kit provides “Out of the box” operation with or without the accompanying software. 2-way Range Test capability is included by simply snapping on the included 9V battery, turn on power, and configuring the opposite board for transmit. A small area is available for custom development with other popular microprocessors. The DR8001 Data Radio boards are configured to operate at a data rate of 4.8 kbps. The kits are shipped with a pair of data radio boards and matching antennas. Data Radio boards with antennas can be purchased separately for development of applications.
The DR8100-DK kit allows for full demonstration or development of the third-generation (3G) TR8100 Virtual Wire device. The kit provides “Out of the box” operation with or without the accompanying software. 2-way Range Test capability is included by simply snapping on the included 9V battery, turn on power, and configuring the opposite board for transmit. A small area is available for custom development with other popular microprocessors. The DR8100 Data Radio boards are configured to operate at a data rate of 4.8 kbps. The kits are shipped with a pair of data radio boards and matching antennas. Data Radio boards with antennas can be purchased separately for development of applications.
The TRC103 Development kits allow for complete evaluation and application development of RFM’s SRR (Short Range Radio) line of RFIC’s. A communication link or Range Test can be executed with the Data Terminal to evaluate system performance.
The TRC103 Development kits allow for complete evaluation and application development of RFM’s SRR (Short Range Radio) line of RFIC’s. A communication link or Range Test can be executed with the Data Terminal to evaluate system performance.
The TRC103 Development kits allow for complete evaluation and application development of RFM’s SRR (Short Range Radio) line of RFIC’s. A communication link or Range Test can be executed with the Data Terminal to evaluate system performance.
The TRC104 Development kits allow for complete evaluation and application development of RFM’s SRR (Short Range Radio) line of RFIC’s. A communication link or Range Test can be executed with the Data Terminal to evaluate system performance.
The TRC105 Development kits allow for complete evaluation and application development of RFM’s SRR (Short Range Radio) line of RFIC’s. A communication link or Range Test can be executed with the Data Terminal to evaluate system performance.
The TRC105 Development kits allow for complete evaluation and application development of RFM’s SRR (Short Range Radio) line of RFIC’s. A communication link or Range Test can be executed with the Data Terminal to evaluate system performance.
The TRC105 Development kits allow for complete evaluation and application development of RFM’s SRR (Short Range Radio) line of RFIC’s. A communication link or Range Test can be executed with the Data Terminal to evaluate system performance.
The TRC105 Development kits allow for complete evaluation and application development of RFM’s SRR (Short Range Radio) line of RFIC’s. A communication link or Range Test can be executed with the Data Terminal to evaluate system performance.
The TRC105 Development kits allow for complete evaluation and application development of RFM’s SRR (Short Range Radio) line of RFIC’s. A communication link or Range Test can be executed with the Data Terminal to evaluate system performance.
The TRC105 Development kits allow for complete evaluation and application development of RFM’s SRR (Short Range Radio) line of RFIC’s. A communication link or Range Test can be executed with the Data Terminal to evaluate system performance.
The TRC105 Development kits allow for complete evaluation and application development of RFM’s SRR (Short Range Radio) line of RFIC’s. A communication link or Range Test can be executed with the Data Terminal to evaluate system performance.
The TRC105 Development kits allow for complete evaluation and application development of RFM’s SRR (Short Range Radio) line of RFIC’s. A communication link or Range Test can be executed with the Data Terminal to evaluate system performance.
RFM Zigbee (2.4 GHz) Developer Kit include the technology hardware and software to support the development and integration of RFM RF Modules into any machine-to-machine (M2M) application. [more]
Wi-Fi + Bluetooth Combination Short-Range Radio Modules
Quickly Add Standards-Based Connectivity Into Products Best-in-class WLAN and Bluetooth co-existence technology on a single-chip.Minimal external circuitry required to complete a radio design.Drivers are available for Linux and Android [more]
