Bluetooth: Connection Subrating
The Bluetooth® Connection Subrating sample showcases the effect of the LE Connection Subrating feature on the duty cycle of a connection.
Requirements
The sample supports the following development kits:
Hardware platforms |
PCA |
Board name |
Board target |
---|---|---|---|
PCA10156 |
|
||
nRF54L15 DK |
PCA10156 |
|
|
PCA10175 |
|
||
PCA10095 |
|
||
PCA10040 |
|
||
PCA10056 |
|
You can use any combination of the development kits mentioned above in your testing setup.
Additionally, the sample requires a connection to a computer with a serial terminal for each of the development kits.
Overview
This sample transmits data in bursts between two development kits to measure the transmission latency using different subrating parameters.
Subrating provides a mechanism for indicating that only a specific subset of connection events will be actively used by the connected devices, with the radio not being used in other connection events. Connection events are actively used when the peripheral listens for the event or sends data in the event. A subrated connection can therefore have a short ACL connection interval but still exhibit a low duty cycle so that power is conserved.
When a higher bandwidth is needed, the subrate request procedure allows for connection parameter updates to be made with minimal delay.
To measure the transmission latency from application layers, a GATT Latency service BT_UUID_LATENCY is included to compute the time spent. When the sender writes its timestamp to the BT_UUID_LATENC_CHAR characteristic of the receiver, the Latency service of the receiver will automatically reply back. Whenever the sender receives a response, it will use its current time and the corresponding timestamp written before to estimate the round-trip time (RTT) of a writing characteristic procedure (see Bluetooth Core Specification: Vol 3, Part F, 3.4.5 Writing attributes).
Type |
UUID |
Property |
---|---|---|
Primary service |
BT_UUID_LATENCY |
Read only |
Characteristic |
BT_UUID_LATENCY_CHAR |
BT_GATT_CHRC_WRITE, BT_GATT_PERM_WRITE |
By default, the following connection parameters are used:
Parameter |
Value |
---|---|
Connection interval |
8 units (10 ms) |
Subrate factor |
1 or 10 |
Continuation number |
0 or 1 |
Building and running
This sample can be found under samples/bluetooth/subrating
in the nRF Connect SDK folder structure.
To build the sample, follow the instructions in Building an application for your preferred building environment. See also Programming an application for programming steps and Testing and optimization for general information about testing and debugging in the nRF Connect SDK.
Note
When building repository applications in the SDK repositories, building with sysbuild is enabled by default.
If you work with out-of-tree freestanding applications, you need to manually pass the --sysbuild
parameter to every build command or configure west to always use it.
Testing
After programming the sample to both development kits, test it by performing the following steps:
Connect to both kits with a terminal emulator (for example, nRF Connect Serial Terminal). See Testing and optimization for the required settings and steps.
Reset both kits.
In one of the terminal emulators, type
c
to start the application on the connected board in the central role.In the other terminal emulator, type
p
to start the application in the peripheral role.Observe that the kits establish a connection.
The sample will alternate between the following configurations:
No subrating
Subrating with a factor of 10, continuation number 0
Subrating with a factor of 10, continuation number 1
Observe the difference in the duty cycle of the connection:
With no subrating, the link will always use a fast connection interval of 10ms.
With a subrate factor of 10 and no continuation events, the link will always use a slower effective connection interval of 100ms.
With a subrate factor of 10 and one continuation event, the link will use a fast connection interval of 10ms when data needs to be sent, and switch to a low effective connection interval of 100ms otherwise.
The sample demonstrates the ability for the peripheral to request changes to the subrating parameters. This behavior can be changed by setting #define SUBRATE_INITIATOR_ROLE to BT_CONN_ROLE_CENTRAL in the sample.
Sample output
The result should look similar to the following output:
For the central:
*** Booting nRF Connect SDK v2.7.99-9539f0a1a59b *** *** Using Zephyr OS v3.6.99-766b306bcbe8 *** Starting Bluetooth Subrating example I: SoftDevice Controller build revision: I: 0f 3f c8 4a 7e 8d b6 7a |.?.J~..z I: 64 7f 04 47 8b 3c 4b ae |d..G.<K. I: 95 16 0d 96 |.... I: HW Platform: Nordic Semiconductor (0x0002) I: HW Variant: nRF52x (0x0002) I: Firmware: Standard Bluetooth controller (0x00) Version 15.51263 Build 3062726218 I: Identity: EA:9C:4D:3A:2F:A8 (random) I: HCI: version 5.4 (0x0d) revision 0x1224, manufacturer 0x0059 I: LMP: version 5.4 (0x0d) subver 0x1224 Bluetooth initialized Choose device role - type c (central) or p (peripheral): Central. Starting scanning Scanning successfully started Filters matched. Address: FD:AA:B8:5A:36:E2 (random) connectable: 1 Connected as central Service discovery completed Subrate parameters changed: Subrate Factor: 10 Continuation Number: 0 Peripheral latency: 0 Supervision timeout: 0x01f4 (5000 ms) Subrate parameters changed: Subrate Factor: 10 Continuation Number: 1 Peripheral latency: 0 Supervision timeout: 0x01f4 (5000 ms) Subrate parameters changed: Subrate Factor: 1 Continuation Number: 0 Peripheral latency: 0 Supervision timeout: 0x01f4 (5000 ms)
For the peripheral:
*** Booting nRF Connect SDK v2.7.99-9539f0a1a59b *** *** Using Zephyr OS v3.6.99-766b306bcbe8 *** Starting Bluetooth Subrating example I: SoftDevice Controller build revision: I: 0f 3f c8 4a 7e 8d b6 7a |.?.J~..z I: 64 7f 04 47 8b 3c 4b ae |d..G.<K. I: 95 16 0d 96 |.... I: HW Platform: Nordic Semiconductor (0x0002) I: HW Variant: nRF52x (0x0002) I: Firmware: Standard Bluetooth controller (0x00) Version 15.51263 Build 3062726218 I: Identity: FD:AA:B8:5A:36:E2 (random) I: HCI: version 5.4 (0x0d) revision 0x1224, manufacturer 0x0059 I: LMP: version 5.4 (0x0d) subver 0x1224 Bluetooth initialized Choose device role - type c (central) or p (peripheral): Peripheral. Starting advertising Advertising successfully started Connected as peripheral Service discovery completed Subrate parameters changed: Subrate Factor: 1 Continuation Number: 0 Peripheral latency: 0 Supervision timeout: 0x01f4 (5000 ms) Simulating burst of data. Response round-trip time: 16174 us Response round-trip time: 16845 us Response round-trip time: 16845 us Response round-trip time: 16845 us Response round-trip time: 16845 us Response round-trip time: 16876 us Response round-trip time: 16845 us Response round-trip time: 16845 us Response round-trip time: 16876 us Response round-trip time: 16845 us Subrate parameters changed: Subrate Factor: 10 Continuation Number: 0 Peripheral latency: 0 Supervision timeout: 0x01f4 (5000 ms) Simulating burst of data. Response round-trip time: 186218 us Response round-trip time: 196777 us Response round-trip time: 196746 us Response round-trip time: 196777 us Response round-trip time: 196746 us Response round-trip time: 196746 us Response round-trip time: 196777 us Response round-trip time: 196746 us Response round-trip time: 196777 us Response round-trip time: 196746 us Subrate parameters changed: Subrate Factor: 10 Continuation Number: 1 Peripheral latency: 0 Supervision timeout: 0x01f4 (5000 ms) Simulating burst of data. Response round-trip time: 96069 us Response round-trip time: 16845 us Response round-trip time: 16845 us Response round-trip time: 16845 us Response round-trip time: 16845 us Response round-trip time: 16845 us Response round-trip time: 16845 us Response round-trip time: 16845 us Response round-trip time: 16876 us Response round-trip time: 16845 us
References
For more information about LE Connection Subrating, see the following chapters of the Bluetooth Core Specification:
Vol 6, Part B, 4.5.1 Connection events
Vol 6, Part B, 5.1.19 Connection Subrate Update procedure
Vol 6, Part B, 5.1.20 Connection Subrate Request procedure
Dependencies
This sample uses the following nRF Connect SDK libraries:
This sample uses the following sdk-nrfxlib libraries:
In addition, it uses the following Zephyr libraries:
include/console.h
-
include/kernel.h
include/sys/printk.h
include/zephyr/types.h
API:
include/bluetooth/bluetooth.h
include/bluetooth/conn.h
include/bluetooth/gatt.h
include/bluetooth/hci.h
include/bluetooth/uuid.h
include/bluetooth/scan.h
include/bluetooth/gatt_dm.h