Beta85X HD digital

Beta85X HD Digital ist ein Whoop mit der Caddx Nebula Kamera, die mit einer DJI Brille geflogen wird. Das besondere ist dass das Caddx Modul als Naked Version ist, also ohne Kühlplatten. So wiegt Caddx Nebula gerade mal 14 Gramm. Also fast 10 Gramm weniger also die normale Version.
So wiegt der Beta85X mit Empfänger nur 66,50 Gramm

Ausser dem Beta85X bietet BetaFPV einen 75mm großen Digital Whoops an, den Beta75X HD Digital. Der einziger unterschied zwischen den Quads ist das kleinere 75mm Frame und natürlich 1.6 Zoll Propeller. Der Beta75X wiegt 10g weniger.

Beta85X HD Digital kaufen:

Amazon https://amzn.to/30SJIPK

BetaFPV Coupon: Nate25Beta – http://bit.ly/Beta85xDigital
und nutze die GiftCARD um noch 5% mehr zu sparen Coupon: GiftCARD http://bit.ly/BetaFPVgc

Banggood Coupon: BGTT10 – https://www.banggood.com/custlink/mDDYHdTB1d

Mein Review Video

Mein Video – Beta85X digital HD der bester digital Whoop

Beta85X HD Digital – hier erkennt man das Caddx Vista Modul ohne den Kühlkörper

Beta85X HD Digital – F4 AIO FC mit 12A ESC’s

Beta85X Whoop hat ein F4 AIO 12A Flugkontroller mit installierter Betaflight 4.1.1 Firmware. Die 1103 8000KV Motoren sind für 3S Akku optimiert. Geflogen wird der Whoop mit 300mAh 3S Akku. Abfluggewicht ist 82g mit zum Beispiel hier dem GNB Akku.

Beta85X HD mit einem Tattu 450mAh 3S Akku

Die Flugzeit beträgt ca. 4:00 Minuten mit dem 450mAh 3S Akku, wenn man normal fliegt.

Beta85X HD Digital – kleine, blaue links drehende Antenne für die Verbindung zu DJI Brille

Hinden verwendet BetaFPV eine eigene links drehende Antenne für die Verbindung mit der DJI Brille. Natürlich kann das Whoop auch mit der DJI Remote Control geflogen werden. In dem Fall benötigt man keinen Empfänger und spart so nochmal um ca 3 Gramm am Gewicht.

Beta85X HD Digital – Etwas kleine 1103 8000KV Motoren, reichen aber aus

Meine Einstellungen von Beta85X HD Digital mit FrSky XM+ Empfänger.


# Meine Einstellungen 20201107
# JazzMaverick BlHeli_M 16.9 48k Async-PWM 
# version
# Betaflight / STM32F411 (S411) 4.2.4 Oct 20 2020
# start the command batch
batch start
# reset configuration to default settings
defaults nosave
board_name BETAFPVF411
manufacturer_id BEFH
mcu_id 006d00503539511434363532
signature 
# name: Beta85XHD
# feature
feature -SOFTSERIAL
# beeper
beeper -GYRO_CALIBRATED
beeper -RX_LOST
beeper -RX_LOST_LANDING
beeper -DISARMING
beeper -ARMING
beeper -ARMING_GPS_FIX
beeper -BAT_CRIT_LOW
beeper -BAT_LOW
beeper -GPS_STATUS
beeper -ACC_CALIBRATION
beeper -ACC_CALIBRATION_FAIL
beeper -READY_BEEP
beeper -DISARM_REPEAT
beeper -ARMED
beeper -SYSTEM_INIT
beeper -ON_USB
beeper -BLACKBOX_ERASE
beeper -CRASH_FLIP
beeper -CAM_CONNECTION_OPEN
beeper -CAM_CONNECTION_CLOSE
beeper -RC_SMOOTHING_INIT_FAIL
# beacon
beacon RX_SET
# map
map TAER1234
# serial
serial 1 1 115200 57600 0 115200
# aux
aux 0 0 0 1625 2100 0 0
aux 1 1 1 900 1300 0 0
aux 2 2 1 1300 1700 0 0
aux 3 13 2 1700 2100 0 0
aux 4 35 2 1300 1700 0 0
# adjrange
adjrange 0 0 1 900 1200 12 1 0 0
adjrange 1 0 1 1250 1750 12 1 0 0
adjrange 2 0 1 1800 2100 12 1 0 0
# master
set dyn_notch_width_percent = 0
set dyn_notch_q = 250
set dyn_notch_min_hz = 125
set dyn_notch_max_hz = 350
set acc_calibration = -15,54,-57,1
set rssi_channel = 12
set rc_smoothing_auto_smoothness = 20
set dshot_idle_value = 800
set dshot_bidir = ON
set motor_pwm_protocol = DSHOT300
set motor_poles = 12
set failsafe_delay = 5
set vbat_max_cell_voltage = 440
set yaw_motors_reversed = ON
set small_angle = 180
set yaw_deadband = 5
set thrust_linear = 25
set osd_warn_batt_warning = OFF
set osd_warn_core_temp = OFF
set osd_vbat_pos = 2433
set osd_rssi_pos = 2337
set osd_tim_2_pos = 2455
set osd_flymode_pos = 2425
set osd_throttle_pos = 2401
set osd_crosshairs_pos = 2253
set osd_current_pos = 2368
set osd_mah_drawn_pos = 2392
set osd_craft_name_pos = 2443
set osd_warnings_pos = 14765
set osd_avg_cell_voltage_pos = 388
set gyro_rpm_notch_q = 800
set name = Beta85XHD
profile 0
# profile 0
set dyn_lpf_dterm_curve_expo = 7
set vbat_sag_compensation = 100
set anti_gravity_gain = 10000
set feedforward_transition = 40
set iterm_relax_cutoff = 10
set throttle_boost_cutoff = 10
set p_pitch = 69
set d_pitch = 73
set f_pitch = 143
set p_roll = 63
set d_roll = 67
set f_roll = 135
set p_yaw = 68
set f_yaw = 135
set angle_level_strength = 60
set level_limit = 60
set d_min_roll = 0
set d_min_pitch = 0
set ff_interpolate_sp = AVERAGED_3
set ff_spike_limit = 55
set ff_smooth_factor = 40
set ff_boost = 20
profile 1
# profile 1
set dyn_lpf_dterm_curve_expo = 7
set vbat_sag_compensation = 100
set anti_gravity_gain = 10000
set feedforward_transition = 40
set iterm_relax_cutoff = 10
set throttle_boost_cutoff = 10
set d_pitch = 26
set f_pitch = 133
set d_roll = 24
set f_roll = 126
set f_yaw = 126
set angle_level_strength = 60
set level_limit = 60
set d_min_roll = 0
set d_min_pitch = 0
set ff_interpolate_sp = AVERAGED_3
set ff_spike_limit = 55
set ff_smooth_factor = 40
set ff_boost = 20
profile 2
# restore original profile selection
profile 0
rateprofile 0
# rateprofile 0
set roll_expo = 30
set pitch_expo = 30
set yaw_expo = 20
set roll_srate = 67
set pitch_srate = 67
set yaw_srate = 65
set tpa_rate = 0
set throttle_limit_type = SCALE
set throttle_limit_percent = 70
rateprofile 1
# rateprofile 1
set roll_expo = 30
set pitch_expo = 30
set yaw_expo = 30
set tpa_rate = 0
rateprofile 2
# rateprofile 2
set roll_rc_rate = 110
set pitch_rc_rate = 110
set roll_expo = 30
set pitch_expo = 30
set yaw_expo = 20
set yaw_srate = 68
set tpa_rate = 0
rateprofile 3
rateprofile 4
rateprofile 5
# restore original rateprofile selection
rateprofile 0
# save configuration
save