Lines Matching +full:power +full:- +full:on
1 # Nordic Wi-Fi driver for nRF70 series SoCs
5 # SPDX-License-Identifier: Apache-2.0
16 depends on \
21 Nordic Wi-Fi Driver
38 bool "low power mode in QSPI"
52 depends on WIFI_NRF7002 || WIFI_NRF7001
70 depends on WIFI_NRF7002 || WIFI_NRF7001
98 depends on WIFI_NM_WPA_SUPPLICANT_AP
124 bool "Wi-Fi interface auto start on boot"
129 depends on !BUILD_ONLY_NO_BLOBS
145 bool "Low power mode in nRF Wi-Fi chipsets"
169 module-dep = LOG
170 module-str = Log level for Wi-Fi nRF70 driver
171 module-help = Sets log level for Wi-Fi nRF70 driver
193 # Wi-Fi and SR Coexistence Hardware configuration.
195 bool "Wi-Fi and SR coexistence support"
199 depends on $(dt_node_has_prop,nrf70, srrf-switch-gpios)
200 depends on NRF70_SR_COEX
203 …If this GPIO is asserted (1), the SR side RF switch is connected to the Wi-Fi side (shared antenna…
204 …If this GPIO is de-asserted (0), the SR side RF switch is connected to the SR side (separate anten…
219 depends on SHELL
223 bool "low power mode in QSPI"
232 The values are in dB scale in steps of 1 dB and range of 0-4 dB.
236 int "PCB loss for 5 GHz band (5150 MHz - 5350 MHz, Channel-32 - Channel-68)"
241 The values are in dB scale in steps of 1 dB and range of 0-4 dB.
245 int "PCB loss for 5 GHz band (5470 MHz - 5730 MHz, Channel-96 - Channel-144)"
250 The values are in dB scale in steps of 1 dB and range of 0-4 dB.
254 int "PCB loss for 5 GHz band (5730 MHz - 5895 MHz, Channel-149 - Channel-177)"
259 The values are in dB scale in steps of 1 dB and range of 0-4 dB.
268 int "Antenna gain for 5 GHz band (5150 MHz - 5350 MHz)"
273 int "Antenna gain for 5 GHz band (5470 MHz - 5730 MHz)"
278 int "Antenna gain for 5 GHz band (5730 MHz - 5895 MHz)"
283 int "DSSS Transmit power backoff (in dB) for lower edge of 2.4 GHz frequency band"
288 int "HT/VHT Transmit power backoff (in dB) for lower edge of 2.4 GHz frequency band"
293 int "HE Transmit power backoff (in dB) for lower edge of 2.4 GHz frequency band"
298 int "DSSS Transmit power backoff (in dB) for upper edge of 2.4 GHz frequency band"
303 int "HT/VHT Transmit power backoff (in dB) for upper edge of 2.4 GHz frequency band"
308 int "HE Transmit power backoff (in dB) for upper edge of 2.4 GHz frequency band"
313 int "HT/VHT Transmit power backoff (in dB) for lower edge of UNII-1 frequency band"
318 int "HE Transmit power backoff (in dB) for lower edge of UNII-1 frequency band"
323 int "HT/VHT Transmit power backoff (in dB) for upper edge of UNII-1 frequency band"
328 int "HE Transmit power backoff (in dB) for upper edge of UNII-1 frequency band"
333 int "HT/VHT Transmit power backoff (in dB) for lower edge of UNII-2A frequency band"
338 int "HE Transmit power backoff (in dB) for lower edge of UNII-2A frequency band"
343 int "HT/VHT Transmit power backoff (in dB) for upper edge of UNII-2A frequency band"
348 int "HE Transmit power backoff (in dB) for upper edge of UNII-2A frequency band"
353 int "HT/VHT Transmit power backoff (in dB) for lower edge of UNII-2C frequency band"
358 int "HE Transmit power backoff (in dB) for lower edge of UNII-2C frequency band"
363 int "HT/VHT Transmit power backoff (in dB) for upper edge of UNII-2C frequency band"
368 int "HE Transmit power backoff (in dB) for upper edge of UNII-2C frequency band"
373 int "HT/VHT Transmit power backoff (in dB) for lower edge of UNII-3 frequency band"
378 int "HE Transmit power backoff (in dB) for lower edge of UNII-3 frequency band"
383 int "HT/VHT Transmit power backoff (in dB) for upper edge of UNII-3 frequency band"
388 int "HE Transmit power backoff (in dB) for upper edge of UNII-3 frequency band"
393 int "HT/VHT Transmit power backoff (in dB) for lower edge of UNII-4 frequency band"
398 int "HE Transmit power backoff (in dB) for lower edge of UNII-4 frequency band"
403 int "HT/VHT Transmit power backoff (in dB) for upper edge of UNII-4 frequency band"
408 int "HE Transmit power backoff (in dB) for upper edge of UNII-4 frequency band"
447 default -15
482 int "RPU power save idle timeout in milliseconds"
495 beyond SP, the power consumption increases depending on the amount
502 string "Wi-Fi Fixed MAC address in format XX:XX:XX:XX:XX:XX"
507 prompt "Wi-Fi MAC address type"
511 Select the type of MAC address to be used by the Wi-Fi driver
525 depends on ENTROPY_GENERATOR
570 # Override the Wi-Fi subsystems WIFI_MGMT_SCAN_SSID_FILT_MAX parameter,
583 …bool "Wi-Fi beamforming. Enabling beamforming can provide a slight improvement in performance, whe…
590 menu "nRF Wi-Fi operation band(s)"
599 depends on !NRF70_2_4G_ONLY
608 1 - 2.4GHz
609 2 - 5GHz
610 3 - All ( 2.4GHz and 5GHz )
614 int "MTU for Wi-Fi interface"
620 bool "Suppress networks with non-individual MAC addresses as BSSID in the scan results"
622 Wi-Fi access points use locally administered MAC addresses to manage
623 multiple virtual interfaces. For geo-location use cases, these networks
624 …from the virtual interfaces do not help in any way as they are co-located with the primary interfa…
644 …received from the AP. This is used to detect AP silently going down, for example, due to power off.
648 # Relies on power-save mode, so, LPM is needed and AP mode is not supported
649 depends on NRF_WIFI_LOW_POWER
650 depends on !NRF70_AP_MODE
658 re-establish the network connection.
675 int "RPU recovery power save active timeout in milliseconds"
678 Power save active timeout in milliseconds, after which the RPU recovery
680 RPU attempts to enter power save mode in case of inactivity.
687 Minimum time the host should de-assert WAKEUP_NOW and let RPU enter
719 bool "RPU recovery power save state debug logs"
721 Enable RPU recovery power save state debug logs to help debug the RPU recovery mechanism.
728 This option controls disable/enable of the WMM (Wireless Multi-Media) feature.
731 prompt "Power save data retrieval mechanism"
737 bool "PS-Poll frame-based mechanism to retrieve buffered data from AP"
739 When the AP notifies about the availability of buffered data, the STA stays in power save
740 and retrieves the frames one-by-one. This conserves more power but adds latency
744 bool "QoS null frame-based mechanism to retrieve buffered data from AP"
747 power save, and then AP can deliver all buffered frames without any additional
748 overhead or latency, but STA enters power save after a delay costing more power
749 depending on the delay. It is ideal for heavy buffered traffic.
761 bool "Wi-Fi keepalive feature for connection maintenance"
762 depends on NRF70_STA_MODE
764 Enable the Wi-Fi keepalive feature to keep the connection alive by sending
767 power consumption.
779 prompt "Power save exit strategy"
782 Select the power save exit strategy to retrieve buffered data from AP.
785 bool "Exit power save every time to retrieve buffered data from AP"
787 Exit power save every time to retrieve buffered data from AP. Entering back to
788 power save mode might take some time and power.
791 bool "Exit power save based on an intelligent algorithm"
793 Exit power save based on an intelligent algorithm to retrieve buffered data from the AP.
801 depends on NRF70_SCAN_ONLY
803 Enable this configuration to force passive scan on all channels.
804 This will override application-specified scan type.
808 # By default, the limit is 250 in scan-only mode and 150 in regular mode.