RF416 2.4 GHz Spread-Spectrum Radio

Overview

The RF416 has a 2.45- to 2.46-GHz frequency range, which is used in many countries worldwide. This 50-mW spread-spectrum radio can transmit data to another RF416 radio, an RF432 radio, a CR216(X) datalogger, or an AVW216 interface.

The RF416 supports point-to-point and point-to-multipoint communications. It can serve as a field modem/radio while connected to the datalogger or as a base station modem/radio while connected to a computer. The radio can also serve as a stand-alone RF router/repeater.

NOTE: Due to legal changes in the EU, we are not allowed  to sell this product after January 1, 2015 unless we receive a written declaration that the customer wants to use it outside Europe or as a spare part in an existing network.

Read More

Benefits and Features

  • Long range, wireless communications between devices
  • Hassle-free operation in many countries where license-free operation is allowed
  • Low average power consumption
  • Optimized for Campbell Scientific PakBus networking
  • Improved RF efficiency when using PakBus protocol compared to other third-party solutions
  • Low-cost, stand-alone operation when a dedicated PakBus RF repeater is needed
  • Frequency hops over 25 channels avoid interference from other spread-spectrum radios

Images

Technical Description

The RF416 reduces susceptibility to RF interference from other spread spectrum devices by providing user-selectable frequency hopping patterns. Spread spectrum radios spread the normally narrowband information signal over a relatively wide band of frequencies. This process allows communications to be more immune to noise and interference from RF sources such as pagers and cellular phones.

Specifications

Frequency 2.450 to 2.482 GHz
Radio Type Frequency Hopping Spread Spectrum (FHSS)
Country Used In Any country where 2.4 GHz Wi-Fi communications are allowed
Transmission Distance 0.4 km (0.25 mi) with omnidirectional antenna (outdoors); up to 0.8 km (0.5 mi) with higher-gain directional antennas at ideal conditions
RS-232 Baud Rate 38.4k, 19.2k, 9600, 4800, or 1200 bps
Channel Capacity 65,000 Network Identifiers share 25 hop channels.
Frequency Hopping Patterns 6 different selectable patterns
Frequency Control Direct FM
Receiver Sensitivity -104 dBm at 10-4 bit error rate (Campbell Scientific protocols will issue retries wherever a bit error occurs.)
Interference Rejection 70 dB (at pager and cellular phone frequencies)
Power Output 50 mW (nominal)
Data Rate 10 kbps
Antenna Connector Reverse Polarity SMA (RPSMA)
RS-232 Connector 9-pin D female (4 wire: Tx, Rx, CTS, GND)
CS I/O Connector 9-pin D male
FCC ID OUR-24XSTREAM
Power 9 to 16 Vdc
Operating Temperature Range -25° to +50°C
LEDs Power on, TX, RX, diagnostics
Power Connector Barrel plug, center positive 12 V (used to connect the 14291 Field Power Cable)
Average Current Drain
  • < 1 mA (standby with power-saving options used)
  • 36 mA (receiving)
  • 75 mA (transmitting)
Communication Ports
  • RS-232 9-pin D female (4 wire: Tx, Rx, CTS, GND)
  • CS I/O 9-pin D male (Newer data loggers provide power to the radio on this connector. Data loggers purchased before December 1997 require the pn 14291 Field Power Cable.)
Dimensions 11.4 x 7.0 x 2.9 cm (4.5 x 2.8 x 1.1 in.)
Weight 227 g (8 oz)

Compatibility

Please note: The following shows notable compatibility information. It is not a comprehensive list of all compatible products.

Dataloggers

Product Compatible Note
CR1000 (retired)
CR1000X
CR200X (retired)
CR216X (retired)
CR300 Use a 18663 null modem cable.
CR3000
CR350 Use a 18663 null modem cable.
CR5000 (retired)
CR6
CR800 (retired)
CR850 (retired)
CR9000X (retired) Although the CR9000X is compatible, RF416 radios do not support the data logger's fastest communication rates, and are therefore not practical for many CR9000X applications.

Mounting Equipment

Product Compatible Note
ENC10/12
ENC12/14
ENC14/16
ENC16/18

Additional Compatibility Information

Communications

Internal Radio of CR216(X) Dataloggers

The RF416 spread spectrum radio can communicate with the internal spread spectrum radio of our CR216(X) dataloggers. Certain RF416 settings must match the CR216(X) settings for communications between the radio and data logger to be successful. The factory default settings of these devices may not match; therefore, they may need to be reconfigured before communications can take place. For more information, refer to the Quick Reference Guide for Setting Up RF401-to-CR206 Communication application note (see Documents on the right).

Other Spread-Spectrum Radios

RF416 radios can be used in networks containing RF432 and RF415 radios. When RF416 radios are used in networks that include RF415 radios, the Protocol must be set to Transparent. Also, If RF415 and RF416 radios will be in the same RF proximity, do not use 28, 44, 52, 56, or 60 for the RF415 Net Address. RF415 radios with Net Addresses of 28, 44, 52, and 56 interfere with RF416 radios with Net Addresses of 0, 1, 2, and 3, respectively. The RF415 Net Address of 60 interferes with all RF416 Net Addresses.

The RF416's 2.4 GHz radio is also a good fit for parallel operation in RF450, 900 MHz networks due to the frequency difference (i.e., 2400 MHz versus 900 MHz).

Campbell Scientific does not recommend using the RF416 in networks containing FGR-115 radios.

Transparent and PakBus Protocols

Do not mix RF416 radios set to the Transparent protocol with RF416 or RF432 radios set to either of the PakBus protocols, since this will produce RF traffic without any RF communications. However radios with the PakBus Aware and PakBus Node settings can coexist in the same network (i.e., some radios set to PakBus Aware and some radios set to PakBus Node).

Enclosure Considerations

A desiccated, non-condensing environment is required. The 14162 Mounting Kit includes hardware for securing the RF416 to an enclosure backplate (see Ordering Info).

Downloads

RF401 Series OS v.04 (646 KB) 14-08-2008

Current RF401, RF411, RF416 firmware. Requires the Device Configuration Utility.

View Revision History

FAQs for

Number of FAQs related to RF416: 6

Expand AllCollapse All

  1. Can BMP5 Direct SDK software be used to interface/interact with a CR206X/CR211X datalogger via an RF416/RF411 connected to a PC serial port?

    Yes. The BMP5 Direct SDK can communicate with the data logger as long as two conditions are met:

    1. The communications link between the data logger and the computer is transparent.
    2. There are no excessive delays.

  2. Can the power level of the RF416 be increased or decreased?

    No.

  3. What accessories are included with the RF401A, RF411A, or RF416?

    These radios ship with an SC12 serial cable and a 10873 RS-232 cable.

  4. What is the typical range for the RF416?

    The RF416 is a 50 mW, 2.45 to 2.46 GHz radio that requires true line of sight. In a dry environment, with absolutely no physical obstruction to impair the line-of-sight path, and with the proper and elevated antennas, the expected range is approximately 5 miles for the RF416. 

  5. Are CS I/O communications possible with the RF401A, RF401, RF411, RF411A, RF416, or RF450?

    Yes.

  6. What criteria should be used to select an antenna?

    Antenna selection depends on multiple criteria: 

    • Consider how many stations a particular station needs to communicate with. For remote stations in communication with only one repeater or base station, a directional or Yagi antenna may be an appropriate choice. In contrast, repeater stations that receive data from many different locations will probably require an omnidirectional antenna. 
    • Consider if a high-gain antenna is needed to overcome the path between two points. Higher-gain antennas are larger and more expensive. 

    To help with antenna selection and site placement, consider renting and using a demo kit to test the pathway quality. Campbell Scientific offers a 900 MHz demo kit for the RF401, RF430, CR206X, and AVW206, as well as a demo kit for the RF450. Contact Campbell Scientific for assistance.

Visit the FAQ Library

Articles and Press Releases

Privacy Policy Update

We've updated our privacy policy.  Learn More

Cookie Consent

Update your cookie preferences.  Update Cookie Preferences