Zephyr API Documentation
3.7.0
A Scalable Open Source RTOS
|
Broadcast Isochronous Group (BIG) information. More...
#include <iso.h>
Data Fields | |
const bt_addr_le_t * | addr |
Address of the advertiser. | |
uint8_t | sid |
Advertiser SID. | |
uint8_t | num_bis |
Number of BISes in the BIG. | |
uint8_t | sub_evt_count |
Maximum number of subevents in each isochronous event. | |
uint16_t | iso_interval |
Interval between two BIG anchor point (N * 1.25 ms) | |
uint8_t | burst_number |
The number of new payloads in each BIS event. | |
uint8_t | offset |
Offset used for pre-transmissions. | |
uint8_t | rep_count |
The number of times a payload is transmitted in a BIS event. | |
uint16_t | max_pdu |
Maximum size, in octets, of the payload. | |
uint32_t | sdu_interval |
The interval, in microseconds, of periodic SDUs. | |
uint16_t | max_sdu |
Maximum size of an SDU, in octets. | |
uint8_t | phy |
Channel PHY. | |
uint8_t | framing |
Channel framing mode. | |
bool | encryption |
Whether or not the BIG is encrypted. | |
Broadcast Isochronous Group (BIG) information.
const bt_addr_le_t* bt_iso_biginfo::addr |
Address of the advertiser.
uint8_t bt_iso_biginfo::burst_number |
The number of new payloads in each BIS event.
bool bt_iso_biginfo::encryption |
Whether or not the BIG is encrypted.
uint8_t bt_iso_biginfo::framing |
Channel framing mode.
uint16_t bt_iso_biginfo::iso_interval |
Interval between two BIG anchor point (N * 1.25 ms)
uint16_t bt_iso_biginfo::max_pdu |
Maximum size, in octets, of the payload.
uint16_t bt_iso_biginfo::max_sdu |
Maximum size of an SDU, in octets.
uint8_t bt_iso_biginfo::num_bis |
Number of BISes in the BIG.
uint8_t bt_iso_biginfo::offset |
Offset used for pre-transmissions.
uint8_t bt_iso_biginfo::phy |
Channel PHY.
uint8_t bt_iso_biginfo::rep_count |
The number of times a payload is transmitted in a BIS event.
uint32_t bt_iso_biginfo::sdu_interval |
The interval, in microseconds, of periodic SDUs.
uint8_t bt_iso_biginfo::sid |
Advertiser SID.
uint8_t bt_iso_biginfo::sub_evt_count |
Maximum number of subevents in each isochronous event.