Proprietary 900 MHz FHSS module with external antenna connector, 750 mW

Specifications

Antenna Type
External
Channels
32 Channels US/Canada
Chipset (Wireless)
TI CC1010
Compliance
None
Data Rate
76.8 Kbps
Dimension (Height - mm)
5.08 mm
Dimension (Length - mm)
48.26 mm
Dimension (Width - mm)
41.91 mm
Frequency
902 - 928 MHz US/Canada 915 - 928 MHz Australia, US/Canada (optional)
Frequency Range (Max)
928 MHz
Frequency Range (Min)
902 MHz
Input Power
Pin 10: 3.3 - 5.5V -50 mV ripple, Pin 11: 3.3 -3%, -100 mV ripple
Logical Interfaces
UART
Network Architecture
Peer-to-peer
OS/Software
Configuration and Test Software
Operating Humidity
10% - 90%
Output Power
743 mW - 1486 mW
Power Consumption
Up to 1300 mA
Power Consumption (Rx)
30 mA
Power Consumption (Tx)
1300 mA
Product Type
Embedded Module
Receive Sensitivity
-110 dBm
Storage Humidity
10% - 90%
System Architecture
Hosted
Technology
Proprietary RF (9xx MHz)

Documentation

Name Part Type Last Updated
Product Brief - AC4790 AC4790-1000m Product Brief 08/15/2024
Datasheet - AC4790 Module AC4790-1000m Datasheet 07/19/2024

Buy Now

Distributor Part In Stock Region Buy
DigiKey AC4790-1000m 3630 North America Buy Now
Mouser AC4790-1000m 131 North America Buy Now


FAQ

What is the difference between the CL4490/AC4490 and CL4790/AC4790?

The CL4490 /AC4490 radio provides better performance and range due to its Client/Server architecture. This architecture enables it to maintain its connection through a beacon which is sent out in the first 1ms of each hop by the Server. Because the radios maintain their connection they can distinguish a desired signal from the noise floor with more precision, at a lower RSSI differential. This enables the radio to get better range than the CL4790/AC4790. Additionally, the CL4490/AC4490 radio has a shorter hop period of only 20ms. Each network must have one radio configured as a Server, which sends out the beacon to maintain the connection, and can have one or multiple clients. All clients must be in range of the server to operate.

The CL4790 /AC4790 radio uses a peer-to-peer (servererless) architecture, in which the devices need to re-establish a connection each time one of them needs to send data. The CL4790/AC4790 has a longer hop period of 50ms, but attempts to make up for this by having a larger packet size. Because this radio does not maintain its connection, it has to look for the signal in all the noise. As the radios get further and further apart the receiver has to try to pull the signal from the noise floor where it gets buried as the RF energy of the noise is more than the RF signal.

The CL4790 was designed after the CL4490 to fit applications which required a truly servererless architecture, where all the radios communicate as peers. It is best suited for mobile applications in which one or more of the radios will need to roam, and may go outside the range of a server, or in applications which may require a "mesh-like" or daisy-chain set up. For most point-to-point or point-to-multipoint applications the CL4490/AC4490 is the better fit.

How do I return my ConnexLink Radio, AC4490/AC4790, RM024, LT1110 radio to its default settings?

In order to return the radio to its default EEPROM settings it is necessary to load a previously saved file containing the default settings to the Configuration Utility and write the changes to the radio. If you did not save the default settings to a file, prior to changing the settings, please contact Laird Support through the Support Portal to request a file with the default settings for the purpose of restoring the radio to its default configuration.

The "Show Default" settings view in the Laird Configuration and Test Utility should NEVER be written to the radio, as these are for reference ONLY. Writing these to the radio can result in corrupting the radio to a point where it can become unrecoverable. After viewing the "Show Default" settings, the radio settings should always be READ again, prior to writing any changes to the radio, to prevent this from occurring.

Can I get true full duplex operation from the RAMP products (RM024, AC4490, AC4790, LT1110, CL4490, CL4790)?

In the Laird RAMP line of products there is a feature called Full Duplex that leads one to believe they can talk upstream and downstream simultaneously. This is not the case, Full Duplex in the RAMP products gives a dedicated slot within the frame to the Server or Initiator and the second slot or next frame to the Client or Responder. 

What is difference between AC4490/AC4790 product part numbers that end with -01, -02, -03?

The -01, -02, -03 at the end of the part number signifies the version of firmware loaded to the module.
These firmware versions are Regionally significant and apply certified for the regions listed:

 

 

Part Number Certification Region
AC4490-1000M-01 FCC IC/North America
AC4490-1000M-02* RCM/C-Tick* Australia
AC4490LR-1000M-01 Long Range FCC/IC North America
AC4490LR-1000M-02* RCM/C-Tick* Australia*
AC4490LR-1000M-03 Anatel Brazil
AC4790-1000M-01 FCC/IC North America
AC4790-1000M-02* RCM/C-Tick* Australia*
AC4790LR-1000M-01 FCC/IC North America
AC4790LR-1000M-02* RCM/C-Tick* Australia*
CL4490-1000-232-01 (RS232) FCC/IC North America
CL4490-1000-232-03 (RS232) Anatel Brazil
CL4490-1000-232-SP-01 (RS232 - Starter Pack - Includes 2 units) FCC/IC North America
CL4490-1000-485-03 (RS485) Anatel Brazil
CL4490-1000-485-01 (RS485) FCC/IC North America
CL4490-1000-485-SP-01 (RS485 - Starter Pack - Includes 2 units) FCC/IC North America

*RMC/C-Tick Certified modules/ConnexLink must be purchased through Tekdis as they hold the certification.