##********************SUMMARY********************                      
##Board Name: CYW94373EWLSDUSBS_Rev2.0                                          
# Sample variables file for CYW94373EWLSDUSBS reference board  
# 1. 04/30/2020 Intial release with new cyw4373e specific board ID and MAC address. Referenced to cyw94373wlsdusb_p307
# 2. Adding new nvram for Rev2.0.  Migrated nvram from cyw94373ewlsdusbs_p100.txt by updating board name only.  


NVRAMRev=$Rev: 727958 $
sromrev=11
vendid=0x14e4
# 11ac Dual Band Device ID
devid=0x4418
manfid=0x2d0
prodid=0x0885
macaddr=00:90:4c:2d:92:38
nocrc=1

#  SSID
boardtype=0x885
boardrev=0x1200
xtalfreq=37400

# X BFL_BTCOEXIST   = 0x00000001   This board implements Bluetooth coexistence
boardflags=0x00000001
# Board flags 2:
# X BFL2_BT_SHARE_ANT0     = 0x00800000   share core0 antenna with BT
boardflags2=0x00800000
# Board flags 3:
# femctrl table is read from nvram and Av/Vmid read from NVRAM
# Read RCAL from OTP : Bit 13
boardflags3=0x48202100

# Margin to account for drift in LPO frequency in units of 0.025%
ext_lpo_margin_frac=0

# New throttle scheme variables
# temp at which throttling to kick in
tempthresh=105
# delta between throttle on & off
temps_hysteresis=20
# decides how many steps/depth for throttle; (0) means (100-(0))/ 5  = 20 steps
temps_txduty_lowlimit=0
# seconds , delta between temp sense update for throttle algo, every 1 secs check will happen for doing throttle
temps_period=1

phycal_tempdelta=15
rxgains2gelnagaina0=0
rxgains2gtrisoa0=0
rxgains2gtrelnabypa0=0
rxgains5gelnagaina0=0
rxgains5gtrisoa0=0
rxgains5gtrelnabypa0=0
pdgain5g=3
pdgain2g=3
antswitch=0x6
rxchain=1
txchain=1
aa2g=3
aa5g=3
tssipos5g=1
tssipos2g=1
femctrl=0
pa2ga0=-188,5529,-658
pa5ga0=-153,5976,-697,-153,5784,-684,-155,5563,-667,-167,5748,-688
pdoffsetcckma0=0xf
pdoffset2g40ma0=0x9
pdoffset40ma0=0xffff
pdoffset80ma0=0xeeee
extpagain5g=2
extpagain2g=2
AvVmid_c0=1,130,0,160,0,160,0,160,0,160
maxp2ga0=72
maxp5ga0=60,60,60,60
cckbw202gpo=0x0000
dot11agofdmhrbw202gpo=0x0000
ofdmlrbw202gpo=0x0000
mcsbw202gpo=0x66322222
mcsbw402gpo=0x88655333
mcsbw205glpo=0xA7444220
mcsbw205gmpo=0xA7444220
mcsbw205ghpo=0xA7444220
mcsbw405glpo=0xA8555332
mcsbw405gmpo=0xA8555332
mcsbw405ghpo=0xA8555332
mcsbw805glpo=0xC9666332
mcsbw805gmpo=0xC9666332
mcsbw805ghpo=0xC9666332

ppr_hitemp_offset=70,10
#            idx 0: PPR temp thresh, default 150
#            idx 1: PPR temp thresh hysteresis, default 15
cckbw202gpo_ht=0x0000
#            CCK high temp offset, 0.5dBm/step, rate(11,5.5,2,1Mbps)
ofdmbw202gpo_ht=0x00000000
#        2G OFDM temp offset, 0.5dBm/step, rate(54,48,36,24,18,12,9,6Mbps)
mcsbw202gpo_ht=0x22222222
#        2G BW20 VHT/HT temp offset, 0.5dBm/step, rate(C9,C8,M7,M6,M5,M4,M3,M2-0)
ofdmbw205gpo_ht=0x22222222
#        5G OFDM temp offset, 0.5dBm/step, rate(54,48,36,24,18,12,9,6Mbps)
mcsbw205gpo_ht=0x22222222
#        5G BW20 VHT/HT temp offset, 0.5dBm/step, rate(C9,C8,M7,M6,M5,M4,M3,M2-0)
mcsbw405gpo_ht=0x22222222
#        5G BW40 VHT/HT temp offset, 0.5dBm/step, rate(C9,C8,M7,M6,M5,M4,M3,M2-0)
mcsbw805gpo_ht=0x22222222
#        5G BW80 VHT/HT temp offset, 0.5dBm/step, rate(C9,C8,M7,M6,M5,M4,M3,M2-0)

# RF switch control
swctrlmap_2g=0x00001131,0x00001131,0x00001131,0x313131,0x1ff
swctrlmap_5g=0x00201131,0x40404040,0x00001131,0x313131,0x1ff
swctrlmapext_2g=0x00000000,0x00000000,0x00000000,0x000000,0x000
swctrlmapext_5g=0x00000000,0x00000000,0x00000000,0x000000,0x000
fem_table_init_val=0x1131,0x1131
nb_papdcalidx=0x280f
nb_txattn=0x0303
nb_rxattn=0x0303
nb_bbmult=0x3948
nb_eps_offset=0x01e601ea
# Enable Analytic PAPD mode
#papdmode=1
# RSSI adjust
rssi_delta_2g_c0=-2,-2,-2,-2
rssi_delta_5gl_c0=-2,-2,-2,-2,-1,-1
rssi_delta_5gml_c0=-2,-2,-3,-3,-1,-1
rssi_delta_5gmu_c0=0,0,-1,-1,0,0
rssi_delta_5gh_c0=-1,-1,-2,-2,0,0

# WoWL_GPIO/HOST_WAKE settings
#wowl_gpio=0
#wowl_polarity=1

# ATE related
# First read from OTP , if value is 0 then force rcal value to static in driver
ATErcalmode=0

swdiv_en=1 #To enable SW-DIV feature
swdiv_gpio=0
swdiv_swctrl_en=2
swdiv_swctrl_ant0=0
swdiv_swctrl_ant1=1
swdiv_antmap2g_main=1
swdiv_antmap5g_main=1

swdiv_snrlim=290 #Only enable sw_div if the snr on present antenna is less than 290/8=36.25
swdiv_thresh=2000 #No.of rxpkts threshold
swdiv_snrthresh=24 #Difference between antenna's snr is greater than 24/8=3dB, then shift the antennas
swdiv_timeon=10
swdiv_timeoff=1
swdiv_snr2g20=232
swdiv_snr2g40=257
swdiv_snr5g20=296
swdiv_snr5g40=312
swdiv_snr5g80=296

swdiv_ap_dead_check=1 #Enable sending of null frames at a periodicity of 1 sec to check whether the present antenna is dead
swdiv_ap_div=1 #Enabling ap_diversity

#Enables idac_main_mode only when PA LDO Voltage is 2.9.
#In this mode pa5g_idac_main will be programmed to a high value(32)
#Done for EVM improvement 
idac_main_mode=1
#PA LDO Voltage 2.9V
paldo3p3_voltage=4
#2G-5G xtal settings made similar
xtal_ldo_ctl=1
#To enable industrial grade related tunings
e_grade=1
# Enable FDSS
fdss_level_2g=4
fdss_level_5g=4
fdss_interp_en=1

