Commit 6a54223c authored by Idan Horo's avatar Idan Horo
Browse files

Initial commit

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# This file allows user to override the factory
# defaults for the WLAN Driver
# Enable IMPS or not
gEnableImps=1
# Enable/Disable Idle Scan
gEnableIdleScan=0
# Increase sleep duration (seconds) during IMPS
# 0 implies no periodic wake up from IMPS. Periodic wakeup is
# unnecessary if Idle Scan is disabled.
gImpsModSleepTime=0
# Enable BMPS or not
gEnableBmps=1
# Enable suspend or not
# 1: Enable standby, 2: Enable Deep sleep, 3: Enable Mcast/Bcast Filter
gEnableSuspend=3
# Phy Mode (auto, b, g, n, etc)
# Valid values are 0-9, with 0 = Auto, 4 = 11n, 9 = 11ac
gDot11Mode=0
# CSR Roaming Enable(1) Disable(0)
gRoamingTime=0
# Assigned MAC Addresses - This will be used until NV items are in place
# Each byte of MAC address is represented in Hex format as XX
Intf0MacAddress=000AF58989FF
Intf1MacAddress=000AF58989FE
Intf2MacAddress=000AF58989FD
Intf3MacAddress=000AF58989FC
# Set/Clear UAPSD mask
UapsdMask=0
# UAPSD service interval for VO,VI, BE, BK traffic
InfraUapsdVoSrvIntv=20
InfraUapsdViSrvIntv=40
# Flag to allow STA send AddTspec even when ACM is Off
gAddTSWhenACMIsOff=1
# Make 1x1 the default antenna configuration
gNumRxAnt=1
# Beacon filtering frequency (unit in beacon intervals)
gNthBeaconFilter=50
# Enable WAPI or not
# WAPIIsEnabled=0
# Flags to filter Mcast abd Bcast RX packets.
# Value 0: No filtering, 1: Filter all Multicast.
# 2: Filter all Broadcast. 3: Filter all Mcast abd Bcast
McastBcastFilter=3
#Flag to enable HostARPOffload feature or not
hostArpOffload=1
#SoftAP Related Parameters
# AP MAc addr
gAPMacAddr=000AF589dcab
# 802.11n Protection flag
gEnableApProt=1
#Enable OBSS protection
gEnableApOBSSProt=1
#Enable/Disable UAPSD for SoftAP
gEnableApUapsd=1
# Fixed Rate
gFixedRate=0
# Maximum Tx power
# gTxPowerCap=30
# Fragmentation Threshold
# gFragmentationThreshold=2346
# RTS threshold
RTSThreshold=2347
# Intra-BSS forward
gDisableIntraBssFwd=0
# WMM Enable/Disable
WmmIsEnabled=0
# 802.11d support
g11dSupportEnabled=0
# CCX Support and fast transition
EseEnabled=0
FastTransitionEnabled=1
ImplicitQosIsEnabled=0
gNeighborScanTimerPeriod=200
# default value of this parameter is zero to enable dynamic threshold allocation
# to set static roming threshold uncomment below parameter and set vaule
#gNeighborLookupThreshold=78
gNeighborScanChannelMinTime=20
gNeighborScanChannelMaxTime=30
# Legacy (non-CCX, non-802.11r) Fast Roaming Support
# To enable, set FastRoamEnabled=1
# To disable, set FastRoamEnabled=0
FastRoamEnabled=1
#Check if the AP to which we are roaming is better than current AP in terms of RSSI.
#Checking is disabled if set to Zero.Otherwise it will use this value as to how better
#the RSSI of the new/roamable AP should be for roaming
RoamRssiDiff=5
# SAP Country code
# Default Country Code is 2 bytes, 3rd byte is optional indoor or out door.
# Example
# US Indoor, USI
# Korea Outdoor, KRO
# Japan without optional byte, JP
# France without optional byte, FR
#gAPCntryCode=USI
#Short Guard Interval Enable/disable
gShortGI20Mhz=1
gShortGI40Mhz=1
#Auto Shutdown Value in seconds. A value of 0 means Auto shutoff is disabled
gAPAutoShutOff=0
# SAP auto channel selection configuration
# 0 = disable auto channel selection
# 1 = enable auto channel selection, channel provided by supplicant will be ignored
gApAutoChannelSelection=0
# Listen Energy Detect Mode Configuration
# Valid values 0-128
# 128 means disable Energy Detect feature
# 0-9 are threshold code and 7 is recommended value from system if feature is to be enabled.
# 10-128 are reserved.
# The EDET threshold mapping is as follows in 3dB step:
# 0 = -60 dBm
# 1 = -63 dBm
# 2 = -66 dBm
# ...
# 7 = -81 dBm
# 8 = -84 dBm
# 9 = -87 dBm
# Note: Any of these settings are valid. Setting 0 would yield the highest power saving (in a noisy environment) at the cost of more range. The range impact is approximately #calculated as:
#
# Range Loss (dB) = EDET threshold level (dBm) + 97 dBm.
#
gEnablePhyAgcListenMode=128
#Preferred channel to start BT AMP AP mode (0 means, any channel)
BtAmpPreferredChannel=0
#Preferred band (both or 2.4 only or 5 only)
BandCapability=0
#Beacon Early Termination (1 = enable the BET feature, 0 = disable)
enableBeaconEarlyTermination=1
beaconEarlyTerminationWakeInterval=11
#Bluetooth Alternate Mac Phy (1 = enable the BT AMP feature, 0 = disable)
gEnableBtAmp=0
#SOFTAP Channel Range selection
gAPChannelSelectStartChannel=1
gAPChannelSelectEndChannel=11
#SOFTAP Channel Range selection Operating band
# 0:2.4GHZ 1: LOW-5GHZ 2:MID-5GHZ 3:HIGH-5GHZ 4: 4.9HZ BAND
gAPChannelSelectOperatingBand=0
#Channel Bonding
gChannelBondingMode5GHz=1
gEnableModulatedDTIM = 3
gMaxLIModulatedDTIM = 3
gEnableDatainactivity = 200
#Enable Keep alive with non-zero period value
gStaKeepAlivePeriod=30
#Say gGoKeepAlivePeriod(5 seconds) and gGoLinkMonitorPeriod(10 seconds).
#For every 10 seconds DUT sends Qos Null frame(i.e., Keep Alive frame if link is idle for last 10 seconds.)
#For both active and power save clients.
#Power save clients: DUT set TIM bit from 10th second onwards and till client honors TIM bit.
#If doesn't honor for 5 seconds then Driver remove client.
#Active clients: DUT send Qos Null frame for 10th seconds onwards if it is not success still DUT try on
#11th second if not tries on 12th and so on till 15th second. Hence before disconnection DUT will send 5 NULL frames.
#Hence in any case DUT will detect client got removed in (10+5) seconds. i.e., (gGoKeepAlivePeriod +gGoLinkMonitorPeriod)..
#gGoLinkMonitorPeriod/ gApLinkMonitorPeriod is period where link is idle and it is period
#where we send NULL frame.
#gApLinkMonitorPeriod = 10
#gGoLinkMonitorPeriod = 10
#gGoKeepAlivePeriod/gApKeepAlivePeriod is time to spend to check whether frame are succeed to send or not.
#Hence total effective detection time is gGoLinkMonitorPeriod+ gGoKeepAlivePeriod/gApLinkMonitorPeriod+ gApKeepAlivePeriod.
gGoKeepAlivePeriod = 10
gApKeepAlivePeriod = 30
#If set will start with active scan after driver load, otherwise will start with
#passive scan to find out the domain
#gEnableBypass11d=1
#If set to 0, will not scan DFS channels
gEnableDFSChnlScan=1
gEnableLogp=1
# Enable Automatic Tx Power control
gEnableAutomaticTxPowerControl=1
# 0 for OLPC 1 for CLPC and SCPC
gEnableCloseLoop=1
#Data Inactivity Timeout when in powersave (in ms)
gDataInactivityTimeout=200
gEnableLpwrImgTransition=1
# Scan Timing Parameters
# gPassiveMaxChannelTime=110
# gPassiveMinChannelTime=60
# Enable Tx LDPC
#gTxLdpcEnable = 1 for HT mode, 2 for VHT mode,3 for both HT and VHT
gTxLdpcEnable=3
# gActiveMaxChannelTime=40
# gActiveMinChannelTime=20
# Drop wlan conn priority with BT co-existence
gBtcFastWlanConnPref=0
# Valid values are 2048,4096,8192 and so on
# Please don't use values other than the ones mentioned above
gMaxMediumTime=4096
# 802.11K support
gRrmEnable=1
gRrmOperChanMax=8
gRrmNonOperChanMax=8
gRrmRandIntvl=100
# btc CTS2S
btcCTS2SduringSCO=1
# prefer 5GHz channel even if lower 5dB than 2.4GHz
gSelect5GHzMargin=5
#Scan offload
gEnableDirectedScanOffload=0
#FlexConnect Power Factor
#Default is set to 0 (disable)
gFlexConnectPowerFactor=0
gVhtChannelWidth=2
# VHT Tx/Rx MCS values
# Valid values are 0,1,2. If commented out, the default value is 0.
# 0=MCS0-7, 1=MCS0-8, 2=MCS0-9
gVhtRxMCS=2
gVhtTxMCS=2
# Enable Tx beamforming
gTxBFEnable=1
#Enable/Disable TDLS Feature
gEnableTDLSSupport=1
#Enable/Disable TDLS Implicit Trigger
gEnableTDLSImplicitTrigger=0
#Enable/Disable TDLS WMM Mode
gEnableTDLSWmmMode=1
#Enable/Disable TDLS Buffer Sta
gEnableTDLSBufferSta=1
#Enable/Disable Mgmt Frame Logging
gEnableMgmtLogging=1
#Enable/Disable MAc Spoofing
gEnableMacAddrSpoof=0
#Enable Scan Results Aging based on number of scans
gScanResultAgeCount=1
#Force split scan
gEnableDynSplitScan=0
# static time occupied for BLE and WLAN, default value of btcStaticLenLeBt is
# 120000 (120ms) and default value of btcStaticLenLeWlan is 30000 (30ms)
btcStaticLenLeBt=80000
btcStaticLenLeWlan=70000
#Enable/disable P2P Mac spoofing
gDisableP2PMacAddrSpoof=1
#Set RPS CPU mask
rps_mask=0f
END
# Note: Configuration parser would not read anything past the END marker
/*------------------------------------------------------------------------------
//DO NOT EDIT
BEGIN
HAL_PHY_RATE_11AC_DUP_12_MBPS gl
HAL_PHY_RATE_11AC_DUP_18_MBPS gm
HAL_PHY_RATE_11AC_DUP_24_MBPS gn
HAL_PHY_RATE_11AC_DUP_36_MBPS go
HAL_PHY_RATE_11AC_DUP_48_MBPS gp
HAL_PHY_RATE_11AC_DUP_54_MBPS gq
HAL_PHY_RATE_11AC_DUP_6_MBPS gj
HAL_PHY_RATE_11AC_DUP_9_MBPS gk
HAL_PHY_RATE_11A_12_MBPS e8
HAL_PHY_RATE_11A_18_MBPS e9
HAL_PHY_RATE_11A_24_MBPS fa
HAL_PHY_RATE_11A_36_MBPS fb
HAL_PHY_RATE_11A_48_MBPS fc
HAL_PHY_RATE_11A_54_MBPS fd
HAL_PHY_RATE_11A_6_MBPS e6
HAL_PHY_RATE_11A_9_MBPS e7
HAL_PHY_RATE_11A_DUP_12_MBPS fg
HAL_PHY_RATE_11A_DUP_18_MBPS fh
HAL_PHY_RATE_11A_DUP_24_MBPS fi
HAL_PHY_RATE_11A_DUP_36_MBPS fj
HAL_PHY_RATE_11A_DUP_48_MBPS fk
HAL_PHY_RATE_11A_DUP_54_MBPS fl
HAL_PHY_RATE_11A_DUP_6_MBPS fe
HAL_PHY_RATE_11A_DUP_9_MBPS ff
HAL_PHY_RATE_11B_LONG_11_MBPS e2
HAL_PHY_RATE_11B_LONG_1_MBPS ez
HAL_PHY_RATE_11B_LONG_2_MBPS e0
HAL_PHY_RATE_11B_LONG_5_5_MBPS e1
HAL_PHY_RATE_11B_SHORT_11_MBPS e5
HAL_PHY_RATE_11B_SHORT_2_MBPS e3
HAL_PHY_RATE_11B_SHORT_5_5_MBPS e4
HAL_PHY_RATE_MCS_1NSS_13_MBPS fn
HAL_PHY_RATE_MCS_1NSS_19_5_MBPS fo
HAL_PHY_RATE_MCS_1NSS_26_MBPS fp
HAL_PHY_RATE_MCS_1NSS_39_MBPS fq
HAL_PHY_RATE_MCS_1NSS_52_MBPS fr
HAL_PHY_RATE_MCS_1NSS_58_5_MBPS fs
HAL_PHY_RATE_MCS_1NSS_65_MBPS ft
HAL_PHY_RATE_MCS_1NSS_6_5_MBPS fm
HAL_PHY_RATE_MCS_1NSS_CB_108_MBPS f7
HAL_PHY_RATE_MCS_1NSS_CB_121_5_MBPS f8
HAL_PHY_RATE_MCS_1NSS_CB_135_MBPS f9
HAL_PHY_RATE_MCS_1NSS_CB_13_5_MBPS f2
HAL_PHY_RATE_MCS_1NSS_CB_27_MBPS f3
HAL_PHY_RATE_MCS_1NSS_CB_40_5_MBPS f4
HAL_PHY_RATE_MCS_1NSS_CB_54_MBPS f5
HAL_PHY_RATE_MCS_1NSS_CB_81_MBPS f6
HAL_PHY_RATE_MCS_1NSS_MM_SG_14_4_MBPS fv
HAL_PHY_RATE_MCS_1NSS_MM_SG_21_7_MBPS fw
HAL_PHY_RATE_MCS_1NSS_MM_SG_28_9_MBPS fx
HAL_PHY_RATE_MCS_1NSS_MM_SG_43_3_MBPS fy
HAL_PHY_RATE_MCS_1NSS_MM_SG_57_8_MBPS fz
HAL_PHY_RATE_MCS_1NSS_MM_SG_65_MBPS f0
HAL_PHY_RATE_MCS_1NSS_MM_SG_72_2_MBPS f1
HAL_PHY_RATE_MCS_1NSS_MM_SG_7_2_MBPS fu
HAL_PHY_RATE_MCS_1NSS_MM_SG_CB_120_MBPS gf
HAL_PHY_RATE_MCS_1NSS_MM_SG_CB_135_MBPS gg
HAL_PHY_RATE_MCS_1NSS_MM_SG_CB_150_MBPS gh
HAL_PHY_RATE_MCS_1NSS_MM_SG_CB_15_MBPS ga
HAL_PHY_RATE_MCS_1NSS_MM_SG_CB_30_MBPS gb
HAL_PHY_RATE_MCS_1NSS_MM_SG_CB_45_MBPS gc
HAL_PHY_RATE_MCS_1NSS_MM_SG_CB_60_MBPS gd
HAL_PHY_RATE_MCS_1NSS_MM_SG_CB_90_MBPS ge
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_NGI_13_MBPS gs
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_NGI_19_5_MBPS gt
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_NGI_26_MBPS gu
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_NGI_39_MBPS gv
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_NGI_52_MBPS gw
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_NGI_58_5_MBPS gx
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_NGI_65_MBPS gy
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_NGI_6_5_MBPS gr
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_NGI_78_MBPS gz
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_NGI_86_5_MBPS j8
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_SGI_14_4_MBPS g1
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_SGI_21_6_MBPS g2
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_SGI_28_8_MBPS g3
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_SGI_43_3_MBPS g4
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_SGI_57_7_MBPS g5
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_SGI_65_MBPS g6
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_SGI_72_2_MBPS g7
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_SGI_7_2_MBPS g0
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_SGI_86_6_MBPS g8
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_SGI_96_1_MBPS j9
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_NGI_108_MBPS he
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_NGI_121_5_MBPS hf
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_NGI_135_MBPS hg
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_NGI_13_5_MBPS g9
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_NGI_162_MBPS hh
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_NGI_180_MBPS hi
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_NGI_27_MBPS ha
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_NGI_40_5_MBPS hb
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_NGI_54_MBPS hc
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_NGI_81_MBPS hd
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_SGI_120_MBPS ho
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_SGI_135_MBPS hp
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_SGI_150_MBPS hq
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_SGI_15_MBPS hj
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_SGI_180_MBPS hr
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_SGI_200_MBPS hs
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_SGI_30_MBPS hk
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_SGI_45_MBPS hl
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_SGI_60_MBPS hm
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_SGI_90_MBPS hn
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_NGI_117_MBPS hw
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_NGI_175_5_MBPS hx
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_NGI_234_MBPS hy
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_NGI_263_3_MBPS hz
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_NGI_292_5_MBPS h0
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_NGI_29_3_MBPS ht
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_NGI_351_MBPS h1
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_NGI_390_MBPS h2
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_NGI_58_5_MBPS hu
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_NGI_87_8_MBPS hv
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_SGI_130_MBPS h6
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_SGI_195_MBPS h7
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_SGI_260_MBPS h8
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_SGI_292_5_MBPS h9
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_SGI_325_MBPS ia
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_SGI_32_5_MBPS h3
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_SGI_390_MBPS ib
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_SGI_433_3_MBPS ic
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_SGI_65_MBPS h4
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_SGI_97_5_MBPS h5
MAX_2_4GHZ_CHANNEL dt
MIN_2_4GHZ_CHANNEL ds
MODE_802_11AG d7
MODE_802_11B d6
MODE_802_11N d8
NUM_2_4GHZ_CHANNELS du
NUM_802_11_MODES d9
NUM_HAL_PHY_RATES ie
NUM_NV_FIELDS ak
NUM_NV_TABLE_IDS jl
NUM_PHY_MAX_TX_CHAINS a2
NUM_PRODUCT_BANDS ao
NUM_REG_DOMAINS bc
NUM_RF_CHANNELS dr
NUM_RF_SUBBANDS bi
NV_COMMON_COUPLER_TYPE ah
NV_COMMON_MAC_ADDR ae
NV_COMMON_MFG_SERIAL_NUMBER af
NV_COMMON_NUM_OF_RX_CHAINS ad
NV_COMMON_NUM_OF_TX_CHAINS ac
NV_COMMON_NV_VERSION ai
NV_COMMON_PRODUCT_BANDS ab
NV_COMMON_PRODUCT_ID aa
NV_COMMON_RESERVED aj
NV_COMMON_WLAN_NV_REV_ID ag
NV_FIELDS_IMAGE i6
NV_TABLE_ANTENNA_PATH_LOSS jg
NV_TABLE_CAL_MEMORY je
NV_TABLE_DEFAULT_COUNTRY i9
NV_TABLE_FW_CONFIG jf
NV_TABLE_HW_CAL_VALUES jc
NV_TABLE_OFDM_CMD_PWR_OFFSET ji
NV_TABLE_PACKET_TYPE_POWER_LIMITS jh
NV_TABLE_RATE_POWER_SETTINGS i7
NV_TABLE_REGULATORY_DOMAINS i8
NV_TABLE_RSSI_CHANNEL_OFFSETS jd
NV_TABLE_TPC_PDADC_OFFSETS jb
NV_TABLE_TPC_POWER_TABLE ja
NV_TABLE_TX_BB_FILTER_MODE jj
NV_TABLE_VIRTUAL_RATE jk
PHY_TX_CHAIN_0 a1
PRODUCT_BAND_11_A an
PRODUCT_BAND_11_A_B_G am
PRODUCT_BAND_11_B_G al
REG_DOMAIN_APAC a8
REG_DOMAIN_ETSI a4
REG_DOMAIN_FCC a3
REG_DOMAIN_HI_5GHZ ba
REG_DOMAIN_JAPAN a5
REG_DOMAIN_KOREA a9
REG_DOMAIN_NO_5GHZ bb
REG_DOMAIN_N_AMER_EXC_FCC a7
REG_DOMAIN_WORLD a6
RF_CHAN_1 bj
RF_CHAN_10 bs
RF_CHAN_100 cc
RF_CHAN_104 cd
RF_CHAN_108 ce
RF_CHAN_10_1 kn
RF_CHAN_11 bt
RF_CHAN_112 cf
RF_CHAN_116 cg
RF_CHAN_11_1 ko
RF_CHAN_12 bu
RF_CHAN_120 ch
RF_CHAN_124 ci
RF_CHAN_128 cj
RF_CHAN_12_1 kp
RF_CHAN_13 bv
RF_CHAN_132 ck
RF_CHAN_136 cl
RF_CHAN_13_1 kq
RF_CHAN_14 bw
RF_CHAN_140 cm
RF_CHAN_144 kt
RF_CHAN_149 cn
RF_CHAN_14_1 kr
RF_CHAN_153 co
RF_CHAN_157 cp
RF_CHAN_161 cq
RF_CHAN_165 cr
RF_CHAN_1_1 ke
RF_CHAN_2 bk
RF_CHAN_208 b1
RF_CHAN_212 b2
RF_CHAN_216 b3
RF_CHAN_240 bx
RF_CHAN_244 by