PDF, 488 Kb, File published: Dec 5, 2012
PDF, 482 Kb, File published: Jul 7, 2015
This application report shows how to use the CC112x and CC12xx series of transceivers in a Frequency Hopping Spread Spectrum system. This allows for transmit powers up to 1 W and utilization of narrow channels for optimum range at the same time.
PDF, 448 Kb, Revision: A, File published: Jun 13, 2013
PDF, 2.8 Mb, File published: Feb 20, 2013
PDF, 836 Kb, Revision: A, File published: Oct 9, 2013
This application report shows how the RX Sniff Mode can be configured for different TX configurations and discusses how average power consumption can be estimated for a receiver implementing this mode. You are expected to have basic knowledge on how the enhanced Wake on Radio (eWOR) and the RX Sniff Mode are implemented in TI's Performance Line Sub-1 GHz RF family of devices.
PDF, 161 Kb, Revision: C, File published: Jun 26, 2014
This application report provides the necessary information to use the temperature sensor of the CC112X and CC120X families. The temperature sensor is based on a proportional to absolute temperature (PTAT) current from a bandgap cell fed to a resistor to generate a PTAT voltage. It is possible to read out the temperature information either as an analog voltage on a general-purpose input/output (GPI
PDF, 57 Kb, File published: Dec 3, 2014
This application report provides the necessary information in order to use the voltage sensor of the CC112x and CC120x family. The voltage sensor can be used to monitor the supply and battery voltage (VDD).
PDF, 278 Kb, File published: Oct 23, 2013
This application report shows an innovative way to use the DualSync functionality of the CC112x/CC120x to handle a new kind of preamble. By using what is called SmartPreamble, the receiver is able to reliably detect exactly where it woke up in the preamble and use the eWOR timer to go back to sleep, and then wake up right before the sync word.
PDF, 406 Kb, File published: Aug 20, 2012
CC1120, CC1121, CC1125, CC1175 DN039 -- Matched Integrated Passive Component for 868 / 915 MHz Operation With CC112x, PDF Source
PDF, 454 Kb, File published: Oct 2, 2012
PDF, 606 Kb, Revision: C, File published: Jun 21, 2013
This application report outlines the expected performance when using a CC1120-CC1190 design underEN 300 220-1 V2.3.1 in the 869.4-869.65 MHz frequency sub-band (g3). The maximum allowed outputpower in the 869.4-869.65 MHz sub-band is +27 dBm (500 mW).For details on the regulatory limits in the 863-870 MHz SRD frequency bands, see the ETSI EN 300 220-1V2.3.1 and ERC recommendation 70-0
PDF, 3.0 Mb, File published: Oct 5, 2015
As the module is designed to support both Launchpadв„ў and SmartRFв„ў Studio platforms, configure the board by changing the on-board jumper positions according to your application. The default configuration of the jumpers on the BoosterPackв„ў module is set for LaunchPad applications. The interface details of CC112x-CC1190 BoosterPack with LaunchPad and SmartRF Studio applications are
PDF, 555 Kb, Revision: B, File published: Jun 13, 2013
PDF, 57 Kb, File published: Dec 12, 2014
This application report describes the frame format and physical layer (PHY) parameters for TI LPRF EasyMode (EasyMode50K), which provides unified, simple, and well defined PHY modes supported by all sub-1 GHz radio devices from LPRF.
PDF, 905 Kb, File published: Nov 27, 2012
CC1120, CC1121, CC1125, CC1175, CC1200, CC1201, CC1111, CC1101, CC1110, CC110L Miniature Helical PCB Antenna for 868 MHz or 915/920 MHz CC113L, CC115L
PDF, 55 Kb, File published: Oct 19, 2015
PDF, 556 Kb, File published: Oct 23, 2014
This application report provides real-world measurement results showing the benefit of antenna diversity. The CC1200 radio transceiver is used as an example in this design note, but the results are applicable for all TI LPRF radios.
PDF, 8.7 Mb, Revision: A, File published: Sep 5, 2017
This application report addresses the parameters that affect the radio range. For identical radio settings, the range is highly dependent on the surroundings and environment. The link budget and the positioning of the antennas and their distance to the ground surface are major contributors to long range. A general specific range can never be specified or guaranteed for any type of radio communicat
PDF, 14.8 Mb, File published: Mar 3, 2016
The purpose of the antenna development kit (CC-Antenna-DK2) is to ease the decision of which type of low-cost antenna can be implemented as well as give an estimation of the performance that can be achieved.
PDF, 138 Kb, Revision: A, File published: Feb 12, 2013
