LTE link control
The LTE link control library provides functionality to control the LTE link on an nRF91 Series SiP.
The LTE link can be controlled through library configurations and API calls to enable a range of features such as specifying the Access Point Name (APN), switching between LTE network modes (NB-IoT or LTE-M), enabling GNSS support and power saving features such as Power Saving Mode (PSM) and enhanced Discontinuous Reception (eDRX).
The library also provides functionality that enables the application to receive notifications regarding LTE link parameters such as Radio Resource Control (RRC) connection state, cell information, and the provided PSM or eDRX timer values.
Configuration
To enable the library, set the Kconfig option CONFIG_LTE_LINK_CONTROL
to y
in the project configuration file prj.conf
.
Establishing an LTE connection
The following block of code shows how you can use the API to establish an LTE connection and get callbacks from the library:
#include <zephyr/kernel.h>
#include <modem/lte_lc.h>
/* Semaphore used to block the main thread until modem has established
* an LTE connection.
*/
K_SEM_DEFINE(lte_connected, 0, 1);
static void lte_handler(const struct lte_lc_evt *const evt)
{
switch (evt->type) {
case LTE_LC_EVT_NW_REG_STATUS:
if (evt->nw_reg_status != LTE_LC_NW_REG_REGISTERED_HOME &&
evt->nw_reg_status != LTE_LC_NW_REG_REGISTERED_ROAMING) {
break;
}
printk("Connected to: %s network\n",
evt->nw_reg_status == LTE_LC_NW_REG_REGISTERED_HOME ? "home" : "roaming");
k_sem_give(<e_connected);
break;
case LTE_LC_EVT_PSM_UPDATE:
case LTE_LC_EVT_EDRX_UPDATE:
case LTE_LC_EVT_RRC_UPDATE:
case LTE_LC_EVT_CELL_UPDATE:
case LTE_LC_EVT_LTE_MODE_UPDATE:
case LTE_LC_EVT_TAU_PRE_WARNING:
case LTE_LC_EVT_NEIGHBOR_CELL_MEAS:
case LTE_LC_EVT_MODEM_SLEEP_EXIT_PRE_WARNING:
case LTE_LC_EVT_MODEM_SLEEP_EXIT:
case LTE_LC_EVT_MODEM_SLEEP_ENTER:
case LTE_LC_EVT_MODEM_EVENT:
/* Handle LTE events */
break;
default:
break;
}
}
int main(void)
{
int err;
printk("Connecting to LTE network. This may take a few minutes...\n");
err = lte_lc_init_and_connect_async(lte_handler);
if (err) {
printk("lte_lc_init_and_connect_async, error: %d\n", err);
return 0;
}
k_sem_take(<e_connected, K_FOREVER);
/* Continue execution... */
}
The code block demonstrates how you can use the library to asynchronously set up an LTE connection.
For more information on the callback events received in lte_lc_evt_handler_t
and data associated with each event, see the documentation on lte_lc_evt
.
The following list mentions some of the information that can be extracted from the received callback events:
Network registration status
PSM parameters
eDRX parameters
RRC connection state
Cell information
TAU pre-warning notifications
Modem sleep notifications
Note
Some of the functionalities might not be compatible with certain modem firmware versions. To check if a desired feature is compatible with a certain modem firmware version, see the AT commands that are documented in the nRF91x1 AT Commands Reference Guide or nRF9160 AT Commands Reference Guide depending on the SiP you are using.
Enabling power-saving features
The recommended way of enabling power saving features is to use the Kconfig options CONFIG_LTE_PSM_REQ
and CONFIG_LTE_EDRX_REQ
.
PSM and eDRX can also be requested at run time using the lte_lc_psm_req()
and lte_lc_edrx_req()
function calls.
However, calling the functions during modem initialization can lead to conflicts with the value set by the Kconfig options.
You can set the timer values requested by the modem using the following options:
Note
A timer value that is requested by the modem is not necessarily given by the network.
The event callbacks LTE_LC_EVT_PSM_UPDATE
and LTE_LC_EVT_EDRX_UPDATE
contain the values that are actually decided by the network.
Connection pre-evaluation
Modem firmware version 1.3.0 and higher supports connection a pre-evaluation feature that allows the application to get information about a cell that is likely to be used for an RRC connection.
Based on the parameters received in the function call, the application can decide whether to send application data or not.
The function lte_lc_conn_eval_params_get()
populates a structure of type lte_lc_conn_eval_params
that includes information on the current consumption cost by the data transmission when utilizing the given cell.
The following code block shows a basic implementation of lte_lc_conn_eval_params_get()
:
...
int main(void)
{
int err;
printk("Connecting to LTE network. This may take a few minutes...\n");
err = lte_lc_init_and_connect_async(lte_handler);
if (err) {
printk("lte_lc_init_and_connect_async, error: %d\n", err);
return 0;
}
k_sem_take(<e_connected, K_FOREVER);
struct lte_lc_conn_eval_params params = {0};
err = lte_lc_conn_eval_params_get(¶ms);
if (err) {
printk("lte_lc_conn_eval_params_get, error: %d\n", err);
return 0;
}
/* Handle connection evaluation parameters... */
/* Continue execution... */
}
lte_lc_conn_eval_params
lists all information that is available when performing connection pre-evaluation.
Modem sleep and TAU pre-warning notifications
Modem firmware version 1.3.0 and higher supports receiving callbacks from the modem related to Tracking Area Updates (TAU) and modem sleep. Based on these notifications, the application can alter its behavior to optimize for a given metric.
For instance, TAU pre-warning notifications can be used to schedule data transfers before a TAU so that data transfer and TAU occurs within the same RRC connection window, thereby saving the potential overhead associated with the additional data exchange.
Modem sleep notifications can be used to schedule processing in the same operational window as the modem to limit the overall computation time of the nRF91 Series SiP.
To enable modem sleep and TAU pre-warning notifications, enable the following options:
For additional configurations related to these features, see the API documentation.
Connection fallback mode
It is possible to try to switch between LTE-M and NB-IoT after a certain time period if a connection has not been established. This is useful when the connection to either of these networks becomes unavailable. You can also configure the switching period between the network modes. If a connection cannot be established by using the fallback mode, the library reports an error. You can use the following configuration options to configure the connection fallback mode:
Functional mode changes callback
The library allows the application to define compile-time callbacks to receive the modem’s functional mode changes.
These callbacks allow any part of the application to perform certain operations when the modem enters or re-enters a certain functional mode using the library lte_lc_func_mode_set()
API.
For example, one kind of operation that the application or a library may need to perform and repeat, whenever the modem enters a certain functional mode is the subscription to AT notifications.
The application can set up a callback for modem`s functional mode changes using the LTE_LC_ON_CFUN
macro.
The following code snippet shows how to use the LTE_LC_ON_CFUN
macro:
/* Define a callback */
LTE_LC_ON_CFUN(cfun_hook, on_cfun, NULL);
/* Callback implementation */
static void on_cfun(enum lte_lc_func_mode mode, void *context)
{
printk("Functional mode changed to %d\n", mode);
}
int main(void)
{
/* Change functional mode using the LTE link control API */
lte_lc_func_mode_set(LTE_LC_FUNC_MODE_NORMAL);
return 0;
}
API documentation
include/modem/lte_lc.h
lib/lte_link_control/lte_lc.c
- group lte_lc
Public APIs for the LTE link control library.
Defines
-
LTE_LC_CELL_TIMING_ADVANCE_MAX
Maximum timing advance value.
-
LTE_LC_CELL_TIMING_ADVANCE_INVALID
Invalid timing advance value.
-
LTE_LC_CELL_EARFCN_MAX
Maximum EARFCN value.
-
LTE_LC_CELL_RSRP_INVALID
Unknown or undetectable RSRP value.
-
LTE_LC_CELL_RSRQ_INVALID
Unknown or undetectable RSRQ value.
-
LTE_LC_CELL_EUTRAN_ID_INVALID
Cell ID value not valid.
-
LTE_LC_CELL_EUTRAN_ID_MAX
Maximum cell ID value.
-
LTE_LC_CELL_TIME_DIFF_INVALID
Time difference not valid.
-
LTE_LC_ON_CFUN(name, _callback, _context)
Define a callback for functional mode changes through lte_lc_func_mode_set().
- Parameters:
name – Callback name.
_callback – Callback function.
_context – User-defined context.
Typedefs
-
typedef void (*lte_lc_evt_handler_t)(const struct lte_lc_evt *const evt)
Handler for LTE events.
- Param evt:
[in] Event.
Enums
-
enum lte_lc_nw_reg_status
Network registration status.
Note
Maps directly to the registration status as returned by the AT command
AT+CEREG?
.Values:
-
enumerator LTE_LC_NW_REG_NOT_REGISTERED
Not registered. UE is not currently searching for an operator to register to.
-
enumerator LTE_LC_NW_REG_REGISTERED_HOME
Registered, home network.
-
enumerator LTE_LC_NW_REG_SEARCHING
Not registered, but UE is currently trying to attach or searching for an operator to register to.
-
enumerator LTE_LC_NW_REG_REGISTRATION_DENIED
Registration denied.
-
enumerator LTE_LC_NW_REG_UNKNOWN
Unknown, for example out of LTE coverage.
-
enumerator LTE_LC_NW_REG_REGISTERED_ROAMING
Registered, roaming.
-
enumerator LTE_LC_NW_REG_UICC_FAIL
Not registered due to UICC failure.
-
enumerator LTE_LC_NW_REG_NOT_REGISTERED
-
enum lte_lc_system_mode
System mode.
Values:
-
enumerator LTE_LC_SYSTEM_MODE_LTEM
LTE-M only.
-
enumerator LTE_LC_SYSTEM_MODE_NBIOT
NB-IoT only.
-
enumerator LTE_LC_SYSTEM_MODE_GPS
GNSS only.
-
enumerator LTE_LC_SYSTEM_MODE_LTEM_GPS
LTE-M + GNSS.
-
enumerator LTE_LC_SYSTEM_MODE_NBIOT_GPS
NB-IoT + GNSS.
-
enumerator LTE_LC_SYSTEM_MODE_LTEM_NBIOT
LTE-M + NB-IoT.
-
enumerator LTE_LC_SYSTEM_MODE_LTEM_NBIOT_GPS
LTE-M + NB-IoT + GNSS.
-
enumerator LTE_LC_SYSTEM_MODE_LTEM
-
enum lte_lc_lte_mode
LTE mode.
The values for LTE-M and NB-IoT correspond to the values for the access technology field in AT responses.
Values:
-
enumerator LTE_LC_LTE_MODE_NONE
None.
-
enumerator LTE_LC_LTE_MODE_LTEM
LTE-M.
-
enumerator LTE_LC_LTE_MODE_NBIOT
NB-IoT.
-
enumerator LTE_LC_LTE_MODE_NONE
-
enum lte_lc_system_mode_preference
LTE mode preference.
If multiple LTE system modes are enabled, the modem can select the mode that best meets the criteria set by this configuration. The LTE mode preference does not affect the way GNSS operates.
Note that there’s a distinction between preferred and prioritized mode.
Values:
-
enumerator LTE_LC_SYSTEM_MODE_PREFER_AUTO
No LTE preference, automatically selected by the modem.
-
enumerator LTE_LC_SYSTEM_MODE_PREFER_LTEM
LTE-M is preferred over PLMN selection.
The modem will prioritize to use LTE-M and switch over to a PLMN where LTE-M is available whenever possible.
-
enumerator LTE_LC_SYSTEM_MODE_PREFER_NBIOT
NB-IoT is preferred over PLMN selection.
The modem will prioritize to use NB-IoT and switch over to a PLMN where NB-IoT is available whenever possible.
-
enumerator LTE_LC_SYSTEM_MODE_PREFER_LTEM_PLMN_PRIO
LTE-M is preferred, but PLMN selection is more important.
The modem will prioritize to stay on home network and switch over to NB-IoT if LTE-M is not available.
-
enumerator LTE_LC_SYSTEM_MODE_PREFER_NBIOT_PLMN_PRIO
NB-IoT is preferred, but PLMN selection is more important.
The modem will prioritize to stay on home network and switch over to LTE-M if NB-IoT is not available.
-
enumerator LTE_LC_SYSTEM_MODE_PREFER_AUTO
-
enum lte_lc_func_mode
Functional mode, used to control RF functionality in the modem.
Note
The values are mapped to modem functional modes as described in “nRF91 AT Commands - Command Reference Guide”. Refer to the AT command guide to verify whether a functional mode is supported by a given modem firmware version.
Values:
-
enumerator LTE_LC_FUNC_MODE_POWER_OFF
Sets the device to minimum functionality.
Disables both transmit and receive RF circuits and deactivates LTE and GNSS.
-
enumerator LTE_LC_FUNC_MODE_NORMAL
Sets the device to full functionality.
Both LTE and GNSS will become active if the respective system modes are enabled.
-
enumerator LTE_LC_FUNC_MODE_RX_ONLY
Sets the device to receive only functionality.
Can be used, for example, to evaluate connections with lte_lc_conn_eval_params_get().
Note
This mode is only supported by modem firmware versions >= 1.3.0.
-
enumerator LTE_LC_FUNC_MODE_OFFLINE
Sets the device to flight mode.
Disables both transmit and receive RF circuits and deactivates LTE and GNSS services.
-
enumerator LTE_LC_FUNC_MODE_DEACTIVATE_LTE
Deactivates LTE without shutting down GNSS services.
-
enumerator LTE_LC_FUNC_MODE_ACTIVATE_LTE
Activates LTE without changing GNSS.
-
enumerator LTE_LC_FUNC_MODE_DEACTIVATE_GNSS
Deactivates GNSS without shutting down LTE services.
-
enumerator LTE_LC_FUNC_MODE_ACTIVATE_GNSS
Activates GNSS without changing LTE.
-
enumerator LTE_LC_FUNC_MODE_DEACTIVATE_UICC
Deactivates UICC.
-
enumerator LTE_LC_FUNC_MODE_ACTIVATE_UICC
Activates UICC.
-
enumerator LTE_LC_FUNC_MODE_OFFLINE_UICC_ON
Sets the device to flight mode without shutting down UICC.
-
enumerator LTE_LC_FUNC_MODE_POWER_OFF
-
enum lte_lc_evt_type
Event type.
Values:
-
enumerator LTE_LC_EVT_NW_REG_STATUS
Network registration status.
The associated payload is the
nw_reg_status
member of type lte_lc_nw_reg_status in the event.
-
enumerator LTE_LC_EVT_PSM_UPDATE
PSM parameters provided by the network.
The associated payload is the
psm_cfg
member of type lte_lc_psm_cfg in the event.
-
enumerator LTE_LC_EVT_EDRX_UPDATE
eDRX parameters provided by the network.
The associated payload is the
edrx_cfg
member of type lte_lc_edrx_cfg in the event.
-
enumerator LTE_LC_EVT_RRC_UPDATE
RRC connection state.
The associated payload is the
rrc_mode
member of type lte_lc_rrc_mode in the event.
-
enumerator LTE_LC_EVT_CELL_UPDATE
Current cell.
The associated payload is the
cell
member of type lte_lc_cell in the event. Only thecell.tac
andcell.id
members are populated in the event payload. The rest are expected to be zero.
-
enumerator LTE_LC_EVT_LTE_MODE_UPDATE
Current LTE mode.
If a system mode that enables both LTE-M and NB-IoT is configured, the modem may change the currently active LTE mode based on the system mode preference and network availability. This event will then indicate which LTE mode is currently used by the modem.
The associated payload is the
lte_mode
member of type lte_lc_lte_mode in the event.
-
enumerator LTE_LC_EVT_TAU_PRE_WARNING
Tracking Area Update pre-warning.
This event will be received some time before TAU is scheduled to occur. The time is configurable. This gives the application the opportunity to send data over the network before the TAU happens, thus saving power by avoiding sending data and the TAU separately.
The associated payload is the
time
member of typeuint64_t
in the event.
-
enumerator LTE_LC_EVT_NEIGHBOR_CELL_MEAS
Neighbor cell measurement results.
The associated payload is the
cells_info
member of type lte_lc_cells_info in the event.
-
enumerator LTE_LC_EVT_MODEM_SLEEP_EXIT_PRE_WARNING
Modem sleep pre-warning.
This event will be received some time before the modem exits sleep. The time is configurable.
The associated payload is the
modem_sleep
member of type lte_lc_modem_sleep in the event. Thetime
parameter indicates the time until modem exits sleep.
-
enumerator LTE_LC_EVT_MODEM_SLEEP_EXIT
Modem exited from sleep.
The associated payload is the
modem_sleep
member of type lte_lc_modem_sleep in the event.
-
enumerator LTE_LC_EVT_MODEM_SLEEP_ENTER
Modem entered sleep.
The associated payload is the
modem_sleep
member of type lte_lc_modem_sleep in the event. Thetime
parameter indicates the duration of the sleep.
-
enumerator LTE_LC_EVT_MODEM_EVENT
Information about modem operation.
The associated payload is the
modem_evt
member of type lte_lc_modem_evt in the event.
-
enumerator LTE_LC_EVT_NW_REG_STATUS
-
enum lte_lc_rrc_mode
RRC connection state.
Values:
-
enumerator LTE_LC_RRC_MODE_IDLE
Idle.
-
enumerator LTE_LC_RRC_MODE_CONNECTED
Connected.
-
enumerator LTE_LC_RRC_MODE_IDLE
-
enum lte_lc_modem_sleep_type
Modem sleep type.
Values:
-
enumerator LTE_LC_MODEM_SLEEP_PSM
Power Saving Mode (PSM).
-
enumerator LTE_LC_MODEM_SLEEP_RF_INACTIVITY
RF inactivity, for example eDRX.
-
enumerator LTE_LC_MODEM_SLEEP_LIMITED_SERVICE
Limited service or out of coverage.
-
enumerator LTE_LC_MODEM_SLEEP_FLIGHT_MODE
Flight mode.
-
enumerator LTE_LC_MODEM_SLEEP_PROPRIETARY_PSM
Proprietary PSM.
Note
This type is only supported by modem firmware versions >= 2.0.0.
-
enumerator LTE_LC_MODEM_SLEEP_PSM
-
enum lte_lc_energy_estimate
Energy consumption estimate.
Values:
-
enumerator LTE_LC_ENERGY_CONSUMPTION_EXCESSIVE
Bad conditions.
Difficulties in setting up connections. Maximum number of repetitions might be needed for data.
-
enumerator LTE_LC_ENERGY_CONSUMPTION_INCREASED
Poor conditions.
Setting up a connection might require retries and a higher number of repetitions for data.
-
enumerator LTE_LC_ENERGY_CONSUMPTION_NORMAL
Normal conditions.
No repetitions for data or only a few repetitions in the worst case.
-
enumerator LTE_LC_ENERGY_CONSUMPTION_REDUCED
Good conditions.
Possibly very good conditions for small amounts of data.
-
enumerator LTE_LC_ENERGY_CONSUMPTION_EFFICIENT
Excellent conditions.
Efficient data transfer estimated also for larger amounts of data.
-
enumerator LTE_LC_ENERGY_CONSUMPTION_EXCESSIVE
-
enum lte_lc_tau_triggered
Cell in Tracking Area Identifier list.
Values:
-
enumerator LTE_LC_CELL_IN_TAI_LIST
The evaluated cell is in the Tracking Area Identifier list.
When switching to this cell, a TAU will not be triggered.
-
enumerator LTE_LC_CELL_NOT_IN_TAI_LIST
The evaluated cell is not in the Tracking Area Identifier list.
When switching to this cell, a TAU will be triggered.
-
enumerator LTE_LC_CELL_UNKNOWN
Not known.
-
enumerator LTE_LC_CELL_IN_TAI_LIST
-
enum lte_lc_ce_level
CE level.
Values:
-
enumerator LTE_LC_CE_LEVEL_0
No repetitions or a small number of repetitions.
-
enumerator LTE_LC_CE_LEVEL_1
Medium number of repetitions.
-
enumerator LTE_LC_CE_LEVEL_2
Large number of repetitions.
-
enumerator LTE_LC_CE_LEVEL_3
Very large number of repetitions.
-
enumerator LTE_LC_CE_LEVEL_UNKNOWN
Not known.
-
enumerator LTE_LC_CE_LEVEL_0
-
enum lte_lc_reduced_mobility_mode
Reduced mobility mode.
Values:
-
enumerator LTE_LC_REDUCED_MOBILITY_DEFAULT
Functionality according to the 3GPP relaxed monitoring feature.
-
enumerator LTE_LC_REDUCED_MOBILITY_NORDIC
Enable Nordic-proprietary reduced mobility feature.
-
enumerator LTE_LC_REDUCED_MOBILITY_DISABLED
Full measurements for best possible mobility.
Disable the 3GPP relaxed monitoring and Nordic-proprietary reduced mobility features.
-
enumerator LTE_LC_REDUCED_MOBILITY_DEFAULT
-
enum lte_lc_modem_evt
Modem domain events.
Values:
-
enumerator LTE_LC_MODEM_EVT_LIGHT_SEARCH_DONE
Indicates that a light search has been performed.
This event gives the application the chance to stop using more power when searching networks in possibly weaker radio conditions. Before sending this event, the modem searches for cells based on previous cell history, measures the radio conditions, and makes assumptions on where networks might be deployed. This event means that the modem has not found a network that it could select based on the 3GPP network selection rules from those locations. It does not mean that there are no networks to be found in the area. The modem continues more thorough searches automatically after sending this status.
-
enumerator LTE_LC_MODEM_EVT_SEARCH_DONE
Indicates that a network search has been performed.
The modem has found a network that it can select according to the 3GPP network selection rules or all frequencies have been scanned and a suitable cell was not found. In the latter case, the modem enters normal limited service state functionality and performs scan for service periodically.
-
enumerator LTE_LC_MODEM_EVT_RESET_LOOP
The modem has detected a reset loop.
A reset loop indicates that the modem restricts network attach attempts for the next 30 minutes. The timer does not run when the modem has no power or while it stays in the reset loop. The modem counts all the resets where the modem is not gracefully deinitialized with
AT+CFUN=0
or using an API performing the equivalent operation, such as setting the functional mode to LTE_LC_FUNC_MODE_POWER_OFF.
-
enumerator LTE_LC_MODEM_EVT_BATTERY_LOW
Battery voltage is low and the modem is therefore deactivated.
-
enumerator LTE_LC_MODEM_EVT_OVERHEATED
The device is overheated and the modem is therefore deactivated.
-
enumerator LTE_LC_MODEM_EVT_NO_IMEI
The modem does not have an IMEI.
-
enumerator LTE_LC_MODEM_EVT_CE_LEVEL_0
Selected CE level in RACH procedure is 0, see 3GPP TS 36.331 for details.
Note
This event is only supported by modem firmware versions >= 2.0.0.
-
enumerator LTE_LC_MODEM_EVT_CE_LEVEL_1
Selected CE level in RACH procedure is 1, see 3GPP TS 36.331 for details.
Note
This event is only supported by modem firmware versions >= 2.0.0.
-
enumerator LTE_LC_MODEM_EVT_CE_LEVEL_2
Selected CE level in RACH procedure is 2, see 3GPP TS 36.331 for details.
Note
This event is only supported by modem firmware versions >= 2.0.0.
-
enumerator LTE_LC_MODEM_EVT_CE_LEVEL_3
Selected CE level in RACH procedure is 3, see 3GPP TS 36.331 for details.
Note
This event is only supported by modem firmware versions >= 2.0.0.
-
enumerator LTE_LC_MODEM_EVT_LIGHT_SEARCH_DONE
-
enum lte_lc_factory_reset_type
Type of factory reset to perform.
Values:
-
enumerator LTE_LC_FACTORY_RESET_ALL
Reset all modem data to factory settings.
-
enumerator LTE_LC_FACTORY_RESET_USER
Reset user-configurable data to factory settings.
-
enumerator LTE_LC_FACTORY_RESET_ALL
-
enum lte_lc_neighbor_search_type
Specifies which type of search the modem should perform when a neighbor cell measurement is started.
When using search types up to LTE_LC_NEIGHBOR_SEARCH_TYPE_EXTENDED_COMPLETE, the result contains parameters from current/serving cell and optionally up to
CONFIG_LTE_NEIGHBOR_CELLS_MAX
neighbor cells.Result notification for Global Cell ID (GCI) search types include Cell ID, PLMN and TAC for up to
gci_count
(lte_lc_ncellmeas_params) surrounding cells.Values:
-
enumerator LTE_LC_NEIGHBOR_SEARCH_TYPE_DEFAULT
The modem searches the network it is registered to (RPLMN) based on previous cell history.
-
enumerator LTE_LC_NEIGHBOR_SEARCH_TYPE_EXTENDED_LIGHT
The modem starts with the same search method as the default type. If needed, it continues to search by measuring the radio conditions and makes assumptions on where networks might be deployed, in other words, a light search. The search is limited to bands that are valid for the area of the current ITU-T region. If RPLMN is not found based on previous cell history, the modem accepts any found PLMN.
Note
This search type is only supported by modem firmware versions >= 1.3.1.
-
enumerator LTE_LC_NEIGHBOR_SEARCH_TYPE_EXTENDED_COMPLETE
The modem follows the same procedure as for LTE_LC_NEIGHBOR_SEARCH_TYPE_EXTENDED_LIGHT, but will continue to perform a complete search instead of a light search, and the search is performed for all supported bands.
Note
This search type is only supported by modem firmware versions >= 1.3.1.
-
enumerator LTE_LC_NEIGHBOR_SEARCH_TYPE_GCI_DEFAULT
GCI search, option 1. Modem searches EARFCNs based on previous cell history.
Note
This search type is only supported by modem firmware versions >= 1.3.4.
-
enumerator LTE_LC_NEIGHBOR_SEARCH_TYPE_GCI_EXTENDED_LIGHT
GCI search, option 2. Modem starts with the same search method as in LTE_LC_NEIGHBOR_SEARCH_TYPE_GCI_DEFAULT. If less than gci_count cells were found, the modem performs a light search on bands that are valid for the area of the current ITU-T region.
Note
This search type is only supported by modem firmware versions >= 1.3.4.
-
enumerator LTE_LC_NEIGHBOR_SEARCH_TYPE_GCI_EXTENDED_COMPLETE
GCI search, option 3. Modem starts with the same search method as in LTE_LC_NEIGHBOR_SEARCH_TYPE_GCI_DEFAULT. If less than gci_count cells were found, the modem performs a complete search on all supported bands.
Note
This search type is only supported by modem firmware versions >= 1.3.4.
-
enumerator LTE_LC_NEIGHBOR_SEARCH_TYPE_DEFAULT
Functions
-
void lte_lc_register_handler(lte_lc_evt_handler_t handler)
Register handler for LTE events.
- Parameters:
handler – [in] Event handler.
-
int lte_lc_deregister_handler(lte_lc_evt_handler_t handler)
De-register handler for LTE events.
- Parameters:
handler – [in] Event handler.
- Return values:
0 – if successful.
-ENXIO – if the handler was not found.
-EINVAL – if the handler was a
NULL
pointer.
-
int lte_lc_init(void)
Initialize the library and configure the modem.
Note
A follow-up call to lte_lc_connect() or lte_lc_connect_async() must be made to establish an LTE connection. The library can be initialized only once, and subsequent calls will return
0
.- Return values:
0 – if successful.
-EFAULT – if an AT command failed.
-
int lte_lc_connect(void)
Connect to LTE network.
Note
Before calling this function, a call to lte_lc_init() must be made, otherwise
-EPERM
is returned.Note
After initialization, the system mode will be set to the default mode selected with Kconfig and LTE preference set to automatic selection.
- Return values:
0 – if successful.
-EPERM – if the library was not initialized.
-EFAULT – if an AT command failed.
-ETIMEDOUT – if a connection attempt timed out before the device was registered to a network.
-EINPROGRESS – if a connection establishment attempt is already in progress.
-
int lte_lc_init_and_connect(void)
Initialize the library, configure the modem and connect to LTE network.
The function blocks until connection is established, or the connection attempt times out.
Note
The library can be initialized only once, and repeated calls will return
0
. lte_lc_connect_async() should be used on subsequent calls.- Return values:
0 – if successful.
-EFAULT – if an AT command failed.
-ETIMEDOUT – if a connection attempt timed out before the device was registered to a network.
-EINPROGRESS – if a connection establishment attempt is already in progress.
-
int lte_lc_connect_async(lte_lc_evt_handler_t handler)
Connect to LTE network.
The function returns immediately.
Note
The library must be initialized before this function is called.
- Parameters:
handler – [in] Event handler for receiving LTE events. The parameter can be
NULL
if an event handler is already registered.
- Return values:
0 – if successful.
-EINVAL – if no event handler was registered.
-EFAULT – if an AT command failed.
-
int lte_lc_init_and_connect_async(lte_lc_evt_handler_t handler)
Initialize the library, configure the modem and connect to LTE network.
The function returns immediately.
Note
The library can be initialized only once, and repeated calls will return
0
. lte_lc_connect() should be used on subsequent calls.- Parameters:
handler – [in] Event handler for receiving LTE events. The parameter can be
NULL
if an event handler is already registered.
- Return values:
0 – if successful.
-EFAULT – if an AT command failed.
-EINVAL – if no event handler was registered.
-
int lte_lc_deinit(void)
Deinitialize the library and power off the modem.
- Return values:
0 – if successful.
-EFAULT – if an AT command failed.
-
int lte_lc_offline(void)
Set the modem to offline mode.
- Return values:
0 – if successful.
-EFAULT – if the functional mode could not be configured.
-
int lte_lc_power_off(void)
Set the modem to power off mode.
- Return values:
0 – if successful.
-EFAULT – if the functional mode could not be configured.
-
int lte_lc_normal(void)
Set the modem to normal mode.
- Return values:
0 – if successful.
-EFAULT – if the functional mode could not be configured.
-
int lte_lc_psm_param_set(const char *rptau, const char *rat)
Set modem PSM parameters.
Requested periodic TAU (RPTAU) and requested active time (RAT) are used when PSM mode is subsequently enabled using lte_lc_psm_req().
For reference see 3GPP 27.007 Ch. 7.38.
- Parameters:
rptau – [in] Requested periodic TAU as a null-terminated string. Set to
NULL
to use manufacturer-specific default value.rat – [in] Requested active time as a null-terminated string. Set to
NULL
to use manufacturer-specific default value.
- Return values:
0 – if successful.
-EINVAL – if an input parameter was invalid.
-
int lte_lc_psm_req(bool enable)
Request modem to enable or disable Power Saving Mode (PSM).
PSM parameters can be set using
CONFIG_LTE_PSM_REQ_RPTAU
andCONFIG_LTE_PSM_REQ_RAT
, or by calling lte_lc_psm_param_set().Note
CONFIG_LTE_PSM_REQ
can be set to enable PSM, which is generally sufficient. This option allows explicit disabling/enabling of PSM requesting after modem initialization. Calling this function for run-time control is possible, but it should be noted that conflicts may arise with the value set byCONFIG_LTE_PSM_REQ
if it is called during modem initialization.- Parameters:
enable – [in]
true
to enable PSM,false
to disable PSM.
- Return values:
0 – if successful.
-EFAULT – if AT command failed.
-
int lte_lc_psm_get(int *tau, int *active_time)
Get the current PSM (Power Saving Mode) configuration.
- Parameters:
tau – [out] Periodic TAU interval in seconds. Positive integer, or
-1
if timer is deactivated.active_time – [out] Active time in seconds. Positive integer, or
-1
if timer is deactivated.
- Return values:
0 – if successful.
-EINVAL – if input argument was invalid.
-EFAULT – if AT command failed.
-EBADMSG – if no active time and/or TAU value was received, including the case when modem is not registered to network.
-
int lte_lc_proprietary_psm_req(bool enable)
Request modem to enable or disable proprietary Power Saving Mode (PSM).
The purpose of the proprietary PSM feature is to perform a PSM-like sleep when network does not allow normal PSM usage. During proprietary PSM, modem will fall to sleep in the same way than it would do if network allowed to use PSM. Sending of MO data or MO SMS will automatically wake up the modem just like if modem was in normal PSM sleep.
To use the feature, also PSM request must be enabled using
CONFIG_LTE_PSM_REQ
or lte_lc_psm_req().Refer to the AT command guide for guidance and limitations of this feature.
Note
CONFIG_LTE_PROPRIETARY_PSM_REQ
can be set to enable proprietary PSM, which is generally sufficient. This option allows to enable or disable proprietary PSM after modem initialization. Calling this function for run-time control is possible, but it should be noted that conflicts may arise with the value set byCONFIG_LTE_PROPRIETARY_PSM_REQ
if it is called during modem initialization.Note
This feature is only supported by modem firmware versions >= v2.0.0.
- Return values:
0 – if successful.
-EFAULT – if AT command failed.
-
int lte_lc_ptw_set(enum lte_lc_lte_mode mode, const char *ptw)
Set the Paging Time Window (PTW) value to be used with eDRX.
eDRX can be requested using lte_lc_edrx_req(). PTW is set individually for LTE-M and NB-IoT.
Requesting a specific PTW configuration should be done with caution. The requested value must be compliant with the eDRX value that is configured, and it is usually best to let the modem use default PTW values.
For reference to which values can be set, see subclause 10.5.5.32 of 3GPP TS 24.008.
- Parameters:
mode – [in] LTE mode to which the PTW value applies.
ptw – [in] Paging Time Window value as a null-terminated string. Set to
NULL
to use manufacturer-specific default value.
- Return values:
0 – if successful.
-EINVAL – if an input parameter was invalid.
-
int lte_lc_edrx_param_set(enum lte_lc_lte_mode mode, const char *edrx)
Set the requested eDRX value.
eDRX can be requested using lte_lc_edrx_req(). eDRX value is set individually for LTE-M and NB-IoT.
For reference see 3GPP 27.007 Ch. 7.40.
- Parameters:
mode – [in] LTE mode to which the eDRX value applies.
edrx – [in] eDRX value as a null-terminated string. Set to
NULL
to use manufacturer-specific default.
- Return values:
0 – if successful.
-EINVAL – if an input parameter was invalid.
-
int lte_lc_edrx_req(bool enable)
Request modem to enable or disable use of eDRX.
eDRX parameters can be set using
CONFIG_LTE_EDRX_REQ_VALUE_LTE_M
,CONFIG_LTE_EDRX_REQ_VALUE_NBIOT
,CONFIG_LTE_PTW_VALUE_LTE_M
andCONFIG_LTE_PTW_VALUE_NBIOT
, or by calling lte_lc_edrx_param_set() and lte_lc_ptw_set().For reference see 3GPP 27.007 Ch. 7.40.
Note
CONFIG_LTE_EDRX_REQ
can be set to enable eDRX, which is generally sufficient. This option allows explicit disabling/enabling of eDRX requesting after modem initialization. Calling this function for run-time control is possible, but it should be noted that conflicts may arise with the value set byCONFIG_LTE_EDRX_REQ
if it is called during modem initialization.- Parameters:
enable – [in]
true
to enable eDRX,false
to disable eDRX.
- Return values:
0 – if successful.
-EFAULT – if AT command failed.
-
int lte_lc_edrx_get(struct lte_lc_edrx_cfg *edrx_cfg)
Get the eDRX parameters currently provided by the network.
- Parameters:
edrx_cfg – [out] eDRX configuration.
- Return values:
0 – if successful.
-EINVAL – if input argument was invalid.
-EFAULT – if AT command failed.
-EBADMSG – if parsing of the AT command response failed.
-
int lte_lc_rai_param_set(const char *value)
Set the RAI value to be used.
RAI can be subsequently enabled using lte_lc_rai_req().
For reference see 3GPP 24.301 Ch. 9.9.4.25.
- Deprecated:
Use
CONFIG_LTE_RAI_REQ
and socket options SO_RAI_* instead.Note
This feature is only supported by modem firmware versions < 2.0.0.
- Parameters:
value – [in] RAI value as a null-terminated string.
- Return values:
0 – if successful.
-EINVAL – if an input parameter was invalid.
-
int lte_lc_rai_req(bool enable)
Request modem to enable or disable use of RAI.
Used RAI value can be set using
CONFIG_LTE_RAI_REQ_VALUE
or by calling lte_lc_rai_param_set().- Deprecated:
Use
CONFIG_LTE_RAI_REQ
and socket options SO_RAI_* instead.Note
This feature is only supported by modem firmware versions < 2.0.0.
- Parameters:
enable – [in]
true
to enable RAI,false
to disable RAI.
- Return values:
0 – if successful.
-EFAULT – if AT command failed.
-EOPNOTSUPP – if RAI is not supported in the current system mode.
-
int lte_lc_nw_reg_status_get(enum lte_lc_nw_reg_status *status)
Get the current network registration status.
- Parameters:
status – [out] Network registration status.
- Return values:
0 – if successful.
-EINVAL – if input argument was invalid.
-EFAULT – if the network registration could not be retrieved from the modem.
-
int lte_lc_system_mode_set(enum lte_lc_system_mode mode, enum lte_lc_system_mode_preference preference)
Set the modem’s system mode and LTE preference.
- Parameters:
mode – [in] System mode.
preference – [in] System mode preference.
- Return values:
0 – if successful.
-EINVAL – if input argument was invalid.
-EFAULT – if the network registration could not be retrieved from the modem.
-
int lte_lc_system_mode_get(enum lte_lc_system_mode *mode, enum lte_lc_system_mode_preference *preference)
Get the modem’s system mode and LTE preference.
- Parameters:
mode – [out] System mode.
preference – [out] System mode preference. Can be
NULL
.
- Return values:
0 – if successful.
-EINVAL – if input argument was invalid.
-EFAULT – if the system mode could not be retrieved from the modem.
-
int lte_lc_func_mode_set(enum lte_lc_func_mode mode)
Set the modem’s functional mode.
- Parameters:
mode – [in] Functional mode.
- Return values:
0 – if successful.
-EINVAL – if input argument was invalid.
-EFAULT – if the functional mode could not be retrieved from the modem.
-
int lte_lc_func_mode_get(enum lte_lc_func_mode *mode)
Get the modem’s functional mode.
- Parameters:
mode – [out] Functional mode.
- Return values:
0 – if successful.
-EINVAL – if input argument was invalid.
-EFAULT – if the functional mode could not be retrieved from the modem.
-
int lte_lc_lte_mode_get(enum lte_lc_lte_mode *mode)
Get the currently active LTE mode.
- Parameters:
mode – [out] LTE mode.
- Return values:
0 – if successful.
-EINVAL – if input argument was invalid.
-EFAULT – if the current LTE mode could not be retrieved.
-EBADMSG – if the LTE mode was not recognized.
-
int lte_lc_neighbor_cell_measurement(struct lte_lc_ncellmeas_params *params)
Initiate a neighbor cell measurement.
The result of the measurement is reported back as an event of the type LTE_LC_EVT_NEIGHBOR_CELL_MEAS, meaning that an event handler must be registered to receive the information. Depending on the network conditions, LTE connection state and requested search type, it may take a while before the measurement result is ready and reported back. After the event is received, the neighbor cell measurements are automatically stopped.
Note
This feature is only supported by modem firmware versions >= 1.3.0.
- Parameters:
params – [in] Search type parameters or
NULL
to initiate a measurement with the default parameters. See lte_lc_ncellmeas_params for more information.
- Return values:
0 – if neighbor cell measurement was successfully initiated.
-EFAULT – if AT command failed.
-EINPROGRESS – if a neighbor cell measurement is already in progress.
-
int lte_lc_neighbor_cell_measurement_cancel(void)
Cancel an ongoing neighbor cell measurement.
- Return values:
0 – if neighbor cell measurement was cancelled.
-EFAULT – if AT command failed.
-
int lte_lc_conn_eval_params_get(struct lte_lc_conn_eval_params *params)
Get connection evaluation parameters.
Connection evaluation parameters can be used to determine the energy efficiency of data transmission before the actual data transmission.
- Parameters:
params – [out] Connection evaluation parameters.
- Return values:
0 – if evaluation succeeded.
1 – if evaluation failed, no cell available.
2 – if evaluation failed, UICC not available.
3 – if evaluation failed, only barred cells available.
4 – if evaluation failed, radio busy (e.g GNSS activity).
5 – if evaluation failed, aborted due to higher priority operation.
6 – if evaluation failed, UE not registered to network.
7 – if evaluation failed, unspecified.
-EINVAL – if input argument was invalid.
-EFAULT – if AT command failed.
-EOPNOTSUPP – if connection evaluation is not available in the current functional mode.
-EBADMSG – if parsing of the AT command response failed.
- Returns:
Zero on success, negative errno code if the API call fails, and a positive error code if the API call succeeds but connection evaluation fails due to modem/network related reasons.
-
int lte_lc_modem_events_enable(void)
Enable modem domain events.
See lte_lc_modem_evt for more information on which events may be received. An event handler must be registered to receive events.
Note
This feature is only supported by modem firmware versions >= 1.3.0.
- Return values:
0 – if successful.
-EFAULT – if AT command failed.
-
int lte_lc_modem_events_disable(void)
Disable modem domain events.
- Return values:
0 – if successful.
-EFAULT – if AT command failed.
-
int lte_lc_periodic_search_set(const struct lte_lc_periodic_search_cfg *const cfg)
Configure periodic searches.
This configuration affects the periodic searches that the modem performs in limited service state to obtain normal service. See lte_lc_periodic_search_cfg and “nRF91 AT Commands - Command Reference Guide” for more information and in-depth explanations of periodic search configuration.
- Parameters:
cfg – [in] Periodic search configuration.
- Return values:
0 – if the configuration was successfully sent to the modem.
-EINVAL – if an input parameter was
NULL
or contained an invalid pattern count.-EFAULT – if an AT command could not be sent to the modem.
-EBADMSG – if the modem responded with an error to an AT command.
-
int lte_lc_periodic_search_get(struct lte_lc_periodic_search_cfg *const cfg)
Get the configured periodic search parameters.
- Parameters:
cfg – [out] Periodic search configuration.
- Return values:
0 – if a configuration was found and populated to the provided pointer.
-EINVAL – if input parameter was
NULL
.-ENOENT – if no periodic search was not configured.
-EFAULT – if an AT command failed.
-EBADMSG – if the modem responded with an error to an AT command or the response could not be parsed.
-
int lte_lc_periodic_search_clear(void)
Clear the configured periodic search parameters.
- Return values:
0 – if the configuration was cleared.
-EFAULT – if an AT command could not be sent to the modem.
-EBADMSG – if the modem responded with an error to an AT command.
-
int lte_lc_periodic_search_request(void)
Request an extra search.
This can be used for example when modem is in sleep state between periodic searches. The search is performed only when the modem is in sleep state between periodic searches.
- Return values:
0 – if the search request was successfully delivered to the modem.
-EFAULT – if an AT command could not be sent to the modem.
-
int lte_lc_reduced_mobility_get(enum lte_lc_reduced_mobility_mode *mode)
Read the current reduced mobility mode.
Note
This feature is only supported by modem firmware versions >= 1.3.2.
- Parameters:
mode – [out] Reduced mobility mode.
- Return values:
0 – if a mode was found and written to the provided pointer.
-EINVAL – if input parameter was
NULL
.-EFAULT – if an AT command failed.
-
int lte_lc_reduced_mobility_set(enum lte_lc_reduced_mobility_mode mode)
Set reduced mobility mode.
Note
This feature is only supported by modem firmware versions >= 1.3.2.
- Parameters:
mode – [in] Reduced mobility mode.
- Return values:
0 – if the new reduced mobility mode was accepted by the modem.
-EFAULT – if an AT command failed.
-
int lte_lc_factory_reset(enum lte_lc_factory_reset_type type)
Reset modem to factory settings.
This operation is allowed only when the modem is not activated.
Note
This feature is only supported by modem firmware versions >= 1.3.0.
- Parameters:
type – [in] Factory reset type.
- Return values:
0 – if factory reset was performed successfully.
-EFAULT – if an AT command failed.
-
struct lte_lc_psm_cfg
- #include <lte_lc.h>
Power Saving Mode (PSM) configuration.
-
struct lte_lc_edrx_cfg
- #include <lte_lc.h>
eDRX configuration.
Public Members
-
enum lte_lc_lte_mode mode
LTE mode for which the configuration is valid.
If the mode is LTE_LC_LTE_MODE_NONE, access technology is not using eDRX.
-
float edrx
eDRX interval in seconds.
-
float ptw
Paging time window in seconds.
-
enum lte_lc_lte_mode mode
-
struct lte_lc_ncell
- #include <lte_lc.h>
Neighbor cell information.
Public Members
-
uint32_t earfcn
EARFCN per 3GPP TS 36.101.
-
int time_diff
Difference of current cell and neighbor cell measurement, in the range -99999 ms < time_diff < 99999 ms. LTE_LC_CELL_TIME_DIFF_INVALID if the value is not valid.
-
uint16_t phys_cell_id
Physical cell ID.
-
int16_t rsrp
RSRP.
Format is the same as for
rsrp
member of struct lte_lc_cell.
-
int16_t rsrq
RSRQ.
Format is the same as for
rsrq
member of struct lte_lc_cell.
-
uint32_t earfcn
-
struct lte_lc_cell
- #include <lte_lc.h>
Cell information.
Public Members
-
int mcc
Mobile Country Code.
-
int mnc
Mobile Network Code.
-
uint32_t id
E-UTRAN cell ID, range 0 - LTE_LC_CELL_EUTRAN_ID_MAX.
-
uint32_t tac
Tracking area code.
-
uint32_t earfcn
EARFCN per 3GPP TS 36.101.
-
uint16_t timing_advance
Timing advance decimal value.
Range 0 - LTE_LC_CELL_TIMING_ADVANCE_MAX. LTE_LC_CELL_TIMING_ADVANCE_INVALID if timing advance is not valid.
Note
Timing advance may be reported from past measurements. The parameters
timing_advance_meas_time
andmeasurement_time
can be used to evaluate if the parameter is usable.
-
uint64_t timing_advance_meas_time
Timing advance measurement time, calculated from modem boot time.
Range 0 - 18 446 744 073 709 551 614 ms.
Note
For modem firmware versions >= 1.3.1, timing advance measurement time may be reported from the modem. This means that timing advance data may now also be available in neighbor cell measurements done in RRC idle, even though the timing advance data was captured in RRC connected. If the value is not reported by the modem, it is set to 0.
-
uint64_t measurement_time
Measurement time.
Range 0 - 18 446 744 073 709 551 614 ms.
-
uint16_t phys_cell_id
Physical cell ID.
-
int16_t rsrp
RSRP.
-17: RSRP < -156 dBm
-16: -156 ≤ RSRP < -155 dBm
…
-3: -143 ≤ RSRP < -142 dBm
-2: -142 ≤ RSRP < -141 dBm
-1: -141 ≤ RSRP < -140 dBm
0: RSRP < -140 dBm
1: -140 ≤ RSRP < -139 dBm
2: -139 ≤ RSRP < -138 dBm
…
95: -46 ≤ RSRP < -45 dBm
96: -45 ≤ RSRP < -44 dBm
97: -44 ≤ RSRP dBm
LTE_LC_CELL_RSRP_INVALID : not known or not detectable
-
int16_t rsrq
RSRQ.
-30: RSRQ < -34 dB
-29: -34 ≤ RSRQ < -33.5 dB
…
-2: -20.5 ≤ RSRQ < -20 dB
-1: -20 ≤ RSRQ < -19.5 dB
0: RSRQ < -19.5 dB
1: -19.5 ≤ RSRQ < -19 dB
2: -19 ≤ RSRQ < -18.5 dB
…
32: -4 ≤ RSRQ < -3.5 dB
33: -3.5 ≤ RSRQ < -3 dB
34: -3 ≤ RSRQ dB
35: -3 ≤ RSRQ < -2.5 dB
36: -2.5 ≤ RSRQ < -2 dB
…
45: 2 ≤ RSRQ < 2.5 dB
46: 2.5 ≤ RSRQ dB
LTE_LC_CELL_RSRQ_INVALID : not known or not detectable.
-
int mcc
-
struct lte_lc_cells_info
- #include <lte_lc.h>
Results of neighbor cell measurements.
Public Members
-
struct lte_lc_cell current_cell
The current cell information is valid if the current cell ID is not set to LTE_LC_CELL_EUTRAN_ID_INVALID.
-
uint8_t ncells_count
Indicates whether or not the
neighbor_cells
contains valid neighbor cell information. If it is zero, no neighbor cells were found for the current cell.
-
struct lte_lc_ncell *neighbor_cells
Neighbor cells for the current cell.
-
uint8_t gci_cells_count
Indicates whether or not the
gci_cells
contains valid surrounding cell information from GCI search types (lte_lc_neighbor_search_type). If it is zero, no cells were found.
-
struct lte_lc_cell *gci_cells
Surrounding cells found by the GCI search types.
-
struct lte_lc_cell current_cell
-
struct lte_lc_modem_sleep
- #include <lte_lc.h>
Modem sleep information.
Public Members
-
enum lte_lc_modem_sleep_type type
Sleep type.
-
int64_t time
Sleep time in milliseconds. If this value is set to -1, the sleep is considered infinite.
-
enum lte_lc_modem_sleep_type type
-
struct lte_lc_conn_eval_params
- #include <lte_lc.h>
Connection evaluation parameters.
Note
For more information on the various connection evaluation parameters, refer to the “nRF91 AT Commands - Command Reference Guide”.
Public Members
-
enum lte_lc_rrc_mode rrc_state
RRC connection state during measurements.
-
enum lte_lc_energy_estimate energy_estimate
Relative estimated energy consumption for data transmission compared to nominal consumption.
-
enum lte_lc_tau_triggered tau_trig
Value that indicates if the evaluated cell is a part of the Tracking Area Identifier list received from the network.
-
enum lte_lc_ce_level ce_level
Coverage Enhancement level for PRACH.
If
rrc_state
is LTE_LC_RRC_MODE_IDLE, the CE level is estimated based on RSRP and network configuration.If
rrc_state
is LTE_LC_RRC_MODE_CONNECTED, the currently used CE level is reported.CE levels 0-2 are supported in NB-IoT.
CE levels 0-1 are supported in LTE-M.
-
int earfcn
EARFCN for given cell where EARFCN is per 3GPP TS 36.101.
-
int16_t dl_pathloss
Reduction in power density in dB.
-
int16_t rsrp
Current RSRP level at time of report.
-17: RSRP < -156 dBm
-16: -156 ≤ RSRP < -155 dBm
…
-3: -143 ≤ RSRP < -142 dBm
-2: -142 ≤ RSRP < -141 dBm
-1: -141 ≤ RSRP < -140 dBm
0: RSRP < -140 dBm
1: -140 ≤ RSRP < -139 dBm
2: -139 ≤ RSRP < -138 dBm
…
95: -46 ≤ RSRP < -45 dBm
96: -45 ≤ RSRP < -44 dBm
97: -44 ≤ RSRP dBm
LTE_LC_CELL_RSRP_INVALID : not known or not detectable
-
int16_t rsrq
Current RSRQ level at time of report.
-30: RSRQ < -34 dB
-29: -34 ≤ RSRQ < -33.5 dB
…
-2: -20.5 ≤ RSRQ < -20 dB
-1: -20 ≤ RSRQ < -19.5 dB
0: RSRQ < -19.5 dB
1: -19.5 ≤ RSRQ < -19 dB
2: -19 ≤ RSRQ < -18.5 dB
…
32: -4 ≤ RSRQ < -3.5 dB
33: -3.5 ≤ RSRQ < -3 dB
34: -3 ≤ RSRQ dB
35: -3 ≤ RSRQ < -2.5 dB
36: -2.5 ≤ RSRQ < -2 dB
…
45: 2 ≤ RSRQ < 2.5 dB
46: 2.5 ≤ RSRQ dB
LTE_LC_CELL_RSRQ_INVALID : not known or not detectable.
-
int16_t tx_rep
Estimated TX repetitions.
If
rrc_state
is LTE_LC_RRC_MODE_IDLE, this value is the initial preamble repetition level in (N)PRACH based on CE level and network configuration.If
rrc_state
is LTE_LC_RRC_MODE_CONNECTED, this value is the latest physical data channel (N)PUSCH transmission repetition level.See 3GPP TS 36.331 and 36.213 for details.
-
int16_t rx_rep
Estimated RX repetitions.
If
rrc_state
is LTE_LC_RRC_MODE_IDLE, this value is the initial random access control channel (M/NPDCCH) repetition level based on CE level and network configuration.If
rrc_state
is LTE_LC_RRC_MODE_CONNECTED, this value is the latest physical data channel (N)PDSCH reception repetition level.See 3GPP TS 36.331 and 36.213 for details.
-
int16_t phy_cid
Physical cell ID of evaluated cell.
-
int16_t band
Current band information.
0 when band information is not available.
See 3GPP TS 36.101 for details.
-
int16_t snr
Current signal-to-noise ratio at time of report.
0: SNR < -24 dB
1: -24 dB <= SNR < -23 dB
2: -23 dB <= SNR < -22 dB
…
47: 22 dB <= SNR < 23 dB
48: 23 dB <= SNR < 24 dB
49: 24 dB <= SNR
127: Not known or not detectable.
-
int16_t tx_power
Estimated TX power in dBm.
If
rrc_state
is LTE_LC_RRC_MODE_IDLE, the value is for first preamble transmission in (N)PRACH.If
rrc_state
is LTE_LC_RRC_MODE_CONNECTED, the value is the latest physical data channel (N)PUSCH transmission power level.See 3GPP TS 36.101 and 36.213 for details.
-
int mcc
Mobile Country Code.
-
int mnc
Mobile Network Code.
-
uint32_t cell_id
E-UTRAN cell ID.
-
enum lte_lc_rrc_mode rrc_state
-
struct lte_lc_ncellmeas_params
- #include <lte_lc.h>
Neighbor cell measurement initiation parameters.
Public Members
-
enum lte_lc_neighbor_search_type search_type
Search type, lte_lc_neighbor_search_type.
-
uint8_t gci_count
Maximum number of GCI cells to be searched. Integer, range: 2-15.
Current cell is counted as one cell. Mandatory with the GCI search types, ignored with other search types.
Note
GCI search types are only supported by modem firmware versions >= 1.3.4.
-
enum lte_lc_neighbor_search_type search_type
-
struct lte_lc_periodic_search_range_cfg
- #include <lte_lc.h>
Configuration for periodic search of type LTE_LC_PERIODIC_SEARCH_PATTERN_RANGE.
Public Members
-
uint16_t initial_sleep
Sleep time between searches in the beginning of the range.
Allowed values: 0 - 65535 seconds.
-
uint16_t final_sleep
Sleep time between searches in the end of the range.
Allowed values: 0 - 65535 seconds.
-
int16_t time_to_final_sleep
Optional target time in minutes for achieving the
final_sleep
value.This can be used to determine angle factor between the initial and final sleep times. The timeline for the
time_to_final_sleep
starts from the beginning of the search pattern. If given, the value cannot be greater than the value of thepattern_end_point
value in the same search pattern. If not given, the angle factor is calculated by using thepattern_end_point
value so, that thefinal_sleep
value is reached at the point ofpattern_end_point
.Allowed values:
-1: Not used
0 - 1080 minutes
-
int16_t pattern_end_point
Time that must elapse before entering the next search pattern.
The timeline for
pattern_end_point
starts from the beginning of the limited service starting point, which is the moment when the first sleep period started.Allowed values:
0 - 1080 minutes.
-
uint16_t initial_sleep
-
struct lte_lc_periodic_search_table_cfg
- #include <lte_lc.h>
Configuration for periodic search of type LTE_LC_PERIODIC_SEARCH_PATTERN_TABLE.
1 to 5 sleep time values for sleep between searches can be configured. It is mandatory to provide
val_1
, while the rest are optional. Unused values must be set to -1. After going through all values, the last value of the last search pattern is repeated, if not configured differently by theloop
orreturn_to_pattern
parameters.Allowed values:
-1: Value unused.
0 - 65535 seconds.
Public Members
-
int val_1
Mandatory sleep time.
-
int val_2
Optional sleep time.
Must be set to -1 if not used.
-
int val_3
Optional sleep time.
val_2
must be configured for this parameter to take effect.Must be set to -1 if not used.
-
int val_4
Optional sleep time.
val_3
must be configured for this parameter to take effect.Must be set to -1 if not used.
-
int val_5
Optional sleep time.
val_4
must be configured for this parameter to take effect.Must be set to -1 if not used.
-
struct lte_lc_periodic_search_pattern
- #include <lte_lc.h>
Periodic search pattern.
A search pattern may be of either ‘range’ or ‘table’ type.
Public Members
-
enum lte_lc_periodic_search_pattern_type type
Search pattern type.
-
struct lte_lc_periodic_search_range_cfg range
Configuration for periodic search of type ‘range’.
-
struct lte_lc_periodic_search_table_cfg table
Configuration for periodic search of type ‘table’.
-
enum lte_lc_periodic_search_pattern_type type
-
struct lte_lc_periodic_search_cfg
- #include <lte_lc.h>
Periodic search configuration.
Public Members
-
bool loop
Indicates if the last given pattern is looped from the beginning when the pattern has ended.
If several patterns are configured, this impacts only the last pattern.
-
uint16_t return_to_pattern
Indicates if the modem can return to a given search pattern with shorter sleeps, for example, when radio conditions change and the given pattern index has already been exceeded.
Allowed values:
0: No return pattern.
1 - 4: Return to search pattern index 1..4.
-
uint16_t band_optimization
Indicates if band optimization shall be used.
0: No optimization. Every periodic search shall be all band search.
1: Use default optimizations predefined by modem. Predefinition depends on the active data profile. See “nRF91 AT Commands - Command Reference Guide” for more information.
2 - 20: Every n periodic search must be an all band search.
-
size_t pattern_count
The number of valid patterns. Range 1 - 4.
-
struct lte_lc_periodic_search_pattern patterns[4]
Array of periodic search patterns.
-
bool loop
-
struct lte_lc_cfun_cb
- #include <lte_lc.h>
Callback for modem functional mode changes.
-
struct lte_lc_evt
- #include <lte_lc.h>
LTE event.
Public Members
-
enum lte_lc_evt_type type
Event type.
-
enum lte_lc_nw_reg_status nw_reg_status
Payload for event LTE_LC_EVT_NW_REG_STATUS.
-
enum lte_lc_rrc_mode rrc_mode
Payload for event LTE_LC_EVT_RRC_UPDATE.
-
struct lte_lc_psm_cfg psm_cfg
Payload for event LTE_LC_EVT_PSM_UPDATE.
-
struct lte_lc_edrx_cfg edrx_cfg
Payload for event LTE_LC_EVT_EDRX_UPDATE.
-
struct lte_lc_cell cell
Payload for event LTE_LC_EVT_CELL_UPDATE.
-
enum lte_lc_lte_mode lte_mode
Payload for event LTE_LC_EVT_LTE_MODE_UPDATE.
-
struct lte_lc_modem_sleep modem_sleep
Payload for events LTE_LC_EVT_MODEM_SLEEP_EXIT_PRE_WARNING, LTE_LC_EVT_MODEM_SLEEP_EXIT and LTE_LC_EVT_MODEM_SLEEP_ENTER.
-
enum lte_lc_modem_evt modem_evt
Payload for event LTE_LC_EVT_MODEM_EVENT.
-
uint64_t time
Payload for event LTE_LC_EVT_TAU_PRE_WARNING.
Time until next Tracking Area Update in milliseconds.
-
struct lte_lc_cells_info cells_info
Payload for event LTE_LC_EVT_NEIGHBOR_CELL_MEAS.
-
enum lte_lc_evt_type type
-
LTE_LC_CELL_TIMING_ADVANCE_MAX