That’s my pleasure mate, happy to give my contribution back to the fpv community 🔥 Soon I’ll upload the maiden flight of the bee 35. Flew it over a landslide🔥
This is such a great video showing your tuning process. I love the section on the wobble dealing with prop wash. But each step you can see improvement. I need to do this with my Cinebot25 as I have never been in love with it. My setup initially felt like it was on ice. I have since tightened it up a ton. But i do not feel the precision I do with other drones. It does prop wash horribly if I am not careful going down. I need to start at the beginning and mess with this stuff. I have a trip coming up and will have some time. Saving this video to run through it and get it dialed. Worst case, I can always load my old preset and be good to go. I was going to go with a pavo35 because I love my pavo20 so much. But I think the speedybee addresses a few key areas with jello and I really like the build with the gps bracket out back. This would easily allow for a Phoenix RID, or print a new bracket for a Dronetag BS if I want to get fancy. Their Gopro gimbal bracket looks good too. Some extra damping for GP if it is needed is a nice feature.
Thanks a lot. Yeah mate, knowing how to tune your drone comes always handy and helpful especially when it is a DIY. If you get badly prop wash, your drone requires a tuning. Follow my video when approaching the tuning and follow the steps shown. A couple of tips: 1 when tuning, use the batteries you are mainly planning to fly the drone with, and make sure that when the battery you are using for tuning reaches 3.8/3.7 v per cell, you change with a new fully charged one otherwise the low voltage gives less power to the drone resulting in a not accurate tuning. 2 if you are planning to carry a GoPro or any action cameras on your drone, mount it on while you tune your drone so that the tuning is in accordance with the real total weight of the drone if you know what I mean.
I wouldn’t recommend doing it so, different motor’s kv requires different tuning in order for the drone to fly properly, otherwise something can go wrong. Follow the tutorial but apply settings based on the performance of your drone
I set my ELRS rate to 50Hz and applied the correpsonding preset but i am getting very low range. It reaches almost -70 dBb at 100meters. What do you recommend? My Output power is set to max in radio master pocket (cant remember the value rightnow)
I am sorry to hear that mate. What I show in the video is related to the crossfire rx, not ELRS. However if you have chosen the preset at 50Hz for ELRS, your rx should get a great range but apparently it doesn’t and for what I have read online many others have encountered the same issue. To overcome this problem, firstly make sure that both rx and tx are at the exact firmware version, exactly the same. Then if the rx’s antennas are too close to the frame, move them a bit far and also if in the place where you fly there are other wifi’s it might affect the performance of your rx. Another thing you can do is to upload the preset at 150hz and set your tx at 150hz as well and see if your rx gets a better ferforms. I had a look on some forums for you and this one might help: github.com/ExpressLRS/ExpressLRS/issues/1094 Keep me informed on how you go mate, happy to help you out🔥
hello friend brother, how did you do with the speedyBee 35 BEE so as not to shake the images of the o3 Air unit, your video was very smooth, mine here shakes a lot in the images, is there a way to solve this?
It might be cause by motors vibration. So Go in the motors tab and check if the dshot is set to dshot 300. Then connect your esc to BLHeli 32 or blheli S depending on your esc and check and in case set the PWM Frequency to 48khz. Let me know
Im not someone who can tune and have just finished building this drone. What are teh chances I can just use what you have put for your tune and hope for the best :p
Inav is more suitable for bigger drone which are supposed for cruising and also if you want to have autonomous flight mode such as waypoint and cruise mode. However this doesn’t mean that a smaller drone can’t run inav. I got inav on a 5” and test flight it and it goes pretty well, will drop a video on how to flash and configure inav, and then a video of a fly test. Anyway, what is your thought about running inav on bee35 despite other people advice?
@@fpvinprogress iam just beeginer my friend i dont have compiration for other software (betaflight) , Hehehe btw thank you for tour respon . I need inav because iam nubie and i think more safe for beginner to fly with inav .
@nugrostv4600 understood my friend, well, inav and betaflight work the same way, inav on one hand, as I said before, provides extra features utilisable is your gps module comes with a compass too where you can get autonomous flight, really depends on what type of flight you are looking for. Betaflight aims more for racing and freestyle type of flights. When I started, I got my hands straight on betaflight and learnt how to use it properly along the way, and same applies if you are learning how to fly across/manual mode. I started by flying on sim, spent some time there learning the basics, and also flew my drone in between, once I felt confident on the sim, then flew only the real one
The gps module I am using is the following: SpeedyBee BZGNSS BZ-181 GPS Here is the link: www.nextfpv.com.au/products/speedybee-bzgnss-bz-181-gps?variant=40694112157766
@@fpvinprogress great. I have the same esc. And 1700 kv motors. Similar to yours. Im using gemfan 5 blade props though. So can i just copy and paste your settings? Also one more thing. My O3 has vibration issues. Apparently i saw i have to set pwm frequency to 48khz. Can you tell me the steps to do it shortly?
I believe that since your esc and motors are the same, you can copy my settings mate. Regarding the Pwm setting, watch this video at the mins 4:13 where I connect the drone to escconfigurator. To get to the escconfigurator go on your browser and type: esc-configurator.com Once there connect your drone to the configuration, plug the battery in your drone and click on read settings Then in the left hand side where the general settings are, scroll down and activate the pwm dithering, this voice should be on if the pwm frequency is above 24 khz. Try this and see how you go, otherwise in the same configurator, flash the esc firmware to the latest choosing blujay rather than blheli s
@@fpvinprogressi have tried the esc configurator previously, after connecting and reading settings, there is nothing that says PWM. So cant find pwm dithering.
@NishaanAhmed on my other drone running blheli S that voice also doesn’t appear, but it does appear on my bee 35 because I strongly believe, I have flashed the firmware to the latest. So flash the blujay firmware to the latest on your bee35 and that voice should appear after that
The tuning process is the same just the drone needs to carry the GoPro during the tuning. I have got the 1700kv motors on this bee35 and I believe they are not powerful enough to also carry a GoPro, maybe a Runcam 5 or similar. When I swap the motors with the 1950kv, then I’ll tune with GoPro on using blackbox data and PID TOOL BOX
@@fpvinprogress on my BEE35, the 1950KV motor with a 6s 1000mah battery is very strong enough to lift the full gopro, but if I freestyle split S or dive, the drone wobbles (not vibrates)
@@aryoks6840connect the drone to the blheli 32 or blheli s depending on your esc and check that the pmw is set on 24 on low and by rpm on high, remember you can only set the high on by rpm if the bidirectional dshot is enabled in the motor tab, otherwise set the high on 24 as well. If the setting is already as same as I mentioned above let me know and we can go ahead to make different changes to remove the wobble. If the setting are different when you check, set them as I said and flight test your drone and let me know then too
I am not that good on edit and I felt that the song didn’t fit in this video, but on the other hand the vtx doesn’t record audio, so I didn’t want to leave that section mute. Thanks for your feedback
thank you for sharing knowledge about how to set speedybee bee35.
greetings always healthy, greetings from Indonesia
That’s my pleasure mate, happy to give my contribution back to the fpv community 🔥
Soon I’ll upload the maiden flight of the bee 35. Flew it over a landslide🔥
@@fpvinprogress ready buddy, keep up the spirit and always be healthy
Thanks a lot mate, be healthy too and happy flying. Greetings from Australia
This is such a great video showing your tuning process. I love the section on the wobble dealing with prop wash. But each step you can see improvement. I need to do this with my Cinebot25 as I have never been in love with it. My setup initially felt like it was on ice. I have since tightened it up a ton. But i do not feel the precision I do with other drones. It does prop wash horribly if I am not careful going down. I need to start at the beginning and mess with this stuff. I have a trip coming up and will have some time. Saving this video to run through it and get it dialed. Worst case, I can always load my old preset and be good to go. I was going to go with a pavo35 because I love my pavo20 so much. But I think the speedybee addresses a few key areas with jello and I really like the build with the gps bracket out back. This would easily allow for a Phoenix RID, or print a new bracket for a Dronetag BS if I want to get fancy. Their Gopro gimbal bracket looks good too. Some extra damping for GP if it is needed is a nice feature.
Thanks a lot.
Yeah mate, knowing how to tune your drone comes always handy and helpful especially when it is a DIY.
If you get badly prop wash, your drone requires a tuning. Follow my video when approaching the tuning and follow the steps shown.
A couple of tips:
1 when tuning, use the batteries you are mainly planning to fly the drone with, and make sure that when the battery you are using for tuning reaches 3.8/3.7 v per cell, you change with a new fully charged one otherwise the low voltage gives less power to the drone resulting in a not accurate tuning.
2 if you are planning to carry a GoPro or any action cameras on your drone, mount it on while you tune your drone so that the tuning is in accordance with the real total weight of the drone if you know what I mean.
Great Video, very helpfull, Thanks
My pleasure, thanks to you too🔥
Great video! Love how you explain your tuning process.
Thanks a lot mate🔥🔥
This seems like a very good method of tuning this quad. Thank you so much for sharing your experience. Happy flying amigo 🫡 🍻.
Thanks a lot for watching it and hope it has been helpful and detailed 🔥 happy flying to you too my friend🔥
Nice tutorial on how to tune the drone👏
Thanks a lot🔥
I have different type of motors 2205 2300kv so can i copy your setting in my cinewhoop 35 ?
I wouldn’t recommend doing it so, different motor’s kv requires different tuning in order for the drone to fly properly, otherwise something can go wrong. Follow the tutorial but apply settings based on the performance of your drone
I set my ELRS rate to 50Hz and applied the correpsonding preset but i am getting very low range. It reaches almost -70 dBb at 100meters. What do you recommend? My Output power is set to max in radio master pocket (cant remember the value rightnow)
I am sorry to hear that mate.
What I show in the video is related to the crossfire rx, not ELRS.
However if you have chosen the preset at 50Hz for ELRS, your rx should get a great range but apparently it doesn’t and for what I have read online many others have encountered the same issue.
To overcome this problem, firstly make sure that both rx and tx are at the exact firmware version, exactly the same. Then if the rx’s antennas are too close to the frame, move them a bit far and also if in the place where you fly there are other wifi’s it might affect the performance of your rx.
Another thing you can do is to upload the preset at 150hz and set your tx at 150hz as well and see if your rx gets a better ferforms.
I had a look on some forums for you and this one might help:
github.com/ExpressLRS/ExpressLRS/issues/1094
Keep me informed on how you go mate, happy to help you out🔥
hello friend brother, how did you do with the speedyBee 35 BEE so as not to shake the images of the o3 Air unit, your video was very smooth, mine here shakes a lot in the images, is there a way to solve this?
It might be cause by motors vibration. So Go in the motors tab and check if the dshot is set to dshot 300. Then connect your esc to BLHeli 32 or blheli S depending on your esc and check and in case set the PWM Frequency to 48khz.
Let me know
@@fpvinprogressthank you brother
My pleasure brotha. Let me know how you go then
Im not someone who can tune and have just finished building this drone. What are teh chances I can just use what you have put for your tune and hope for the best :p
If you have got the same motors kv, same stack, and same esc settings then go for it
Mine aalso bee35 , but instaled inav for the sofware ....
How does it fly with inav firmware in?
@@fpvinprogress others said better change to beta-flight .... hehehe
Inav is more suitable for bigger drone which are supposed for cruising and also if you want to have autonomous flight mode such as waypoint and cruise mode. However this doesn’t mean that a smaller drone can’t run inav.
I got inav on a 5” and test flight it and it goes pretty well, will drop a video on how to flash and configure inav, and then a video of a fly test.
Anyway, what is your thought about running inav on bee35 despite other people advice?
@@fpvinprogress iam just beeginer my friend i dont have compiration for other software (betaflight) , Hehehe btw thank you for tour respon . I need inav because iam nubie and i think more safe for beginner to fly with inav .
@nugrostv4600 understood my friend, well, inav and betaflight work the same way, inav on one hand, as I said before, provides extra features utilisable is your gps module comes with a compass too where you can get autonomous flight, really depends on what type of flight you are looking for. Betaflight aims more for racing and freestyle type of flights.
When I started, I got my hands straight on betaflight and learnt how to use it properly along the way, and same applies if you are learning how to fly across/manual mode. I started by flying on sim, spent some time there learning the basics, and also flew my drone in between, once I felt confident on the sim, then flew only the real one
how long does it fly?
Using a 1300 mah battery, it flies for about 9/10 mins
What gps are you using, please 🙏
The gps module I am using is the following:
SpeedyBee BZGNSS BZ-181 GPS
Here is the link:
www.nextfpv.com.au/products/speedybee-bzgnss-bz-181-gps?variant=40694112157766
Whats your esc?
SpeedyBee BLS 35A Mini V2 4-in-1 ESC
@@fpvinprogress great. I have the same esc. And 1700 kv motors. Similar to yours.
Im using gemfan 5 blade props though.
So can i just copy and paste your settings?
Also one more thing. My O3 has vibration issues. Apparently i saw i have to set pwm frequency to 48khz. Can you tell me the steps to do it shortly?
I believe that since your esc and motors are the same, you can copy my settings mate.
Regarding the Pwm setting, watch this video at the mins 4:13 where I connect the drone to escconfigurator. To get to the escconfigurator go on your browser and type: esc-configurator.com
Once there connect your drone to the configuration, plug the battery in your drone and click on read settings
Then in the left hand side where the general settings are, scroll down and activate the pwm dithering, this voice should be on if the pwm frequency is above 24 khz.
Try this and see how you go, otherwise in the same configurator, flash the esc firmware to the latest choosing blujay rather than blheli s
@@fpvinprogressi have tried the esc configurator previously, after connecting and reading settings, there is nothing that says PWM.
So cant find pwm dithering.
@NishaanAhmed on my other drone running blheli S that voice also doesn’t appear, but it does appear on my bee 35 because I strongly believe, I have flashed the firmware to the latest.
So flash the blujay firmware to the latest on your bee35 and that voice should appear after that
How about tune with full.gopro
The tuning process is the same just the drone needs to carry the GoPro during the tuning.
I have got the 1700kv motors on this bee35 and I believe they are not powerful enough to also carry a GoPro, maybe a Runcam 5 or similar.
When I swap the motors with the 1950kv, then I’ll tune with GoPro on using blackbox data and PID TOOL BOX
@@fpvinprogress on my BEE35, the 1950KV motor with a 6s 1000mah battery is very strong enough to lift the full gopro, but if I freestyle split S or dive, the drone wobbles (not vibrates)
@@aryoks6840 have you tuned your drone?
@@aryoks6840connect the drone to the blheli 32 or blheli s depending on your esc and check that the pmw is set on 24 on low and by rpm on high, remember you can only set the high on by rpm if the bidirectional dshot is enabled in the motor tab, otherwise set the high on 24 as well. If the setting is already as same as I mentioned above let me know and we can go ahead to make different changes to remove the wobble. If the setting are different when you check, set them as I said and flight test your drone and let me know then too
can you share your cli dump please ?
here you are mate. what do you need it for?
#
# dump
# version
# Betaflight / STM32F405 (S405) 4.4.3 Nov 14 2023 / 16:32:58 (738127e7e) MSP API: 1.45
# config: YES
# start the command batch
batch start
board_name SPEEDYBEEF405MINI
manufacturer_id SPBE
# name: SpeedyBee 35
# resources
resource BEEPER 1 C15
resource MOTOR 1 B06
resource MOTOR 2 B07
resource MOTOR 3 B01
resource MOTOR 4 B00
resource MOTOR 5 NONE
resource MOTOR 6 NONE
resource MOTOR 7 NONE
resource MOTOR 8 NONE
resource LED_STRIP 1 A08
resource SERIAL_TX 1 A09
resource SERIAL_TX 2 A02
resource SERIAL_TX 3 C10
resource SERIAL_TX 4 A00
resource SERIAL_TX 5 C12
resource SERIAL_TX 6 C06
resource SERIAL_TX 7 NONE
resource SERIAL_TX 8 NONE
resource SERIAL_TX 9 NONE
resource SERIAL_TX 10 NONE
resource SERIAL_TX 11 NONE
resource SERIAL_TX 12 NONE
resource SERIAL_RX 1 A10
resource SERIAL_RX 2 A03
resource SERIAL_RX 3 C11
resource SERIAL_RX 4 A01
resource SERIAL_RX 5 D02
resource SERIAL_RX 6 C07
resource SERIAL_RX 7 NONE
resource SERIAL_RX 8 NONE
resource SERIAL_RX 9 NONE
resource SERIAL_RX 10 NONE
resource SERIAL_RX 11 NONE
resource SERIAL_RX 12 NONE
resource INVERTER 1 NONE
resource INVERTER 2 NONE
resource INVERTER 3 NONE
resource INVERTER 4 NONE
resource INVERTER 5 NONE
resource INVERTER 6 NONE
resource INVERTER 7 NONE
resource INVERTER 8 NONE
resource INVERTER 9 NONE
resource INVERTER 10 NONE
resource INVERTER 11 NONE
resource INVERTER 12 NONE
resource I2C_SCL 1 B08
resource I2C_SCL 2 NONE
resource I2C_SCL 3 NONE
resource I2C_SDA 1 B09
resource I2C_SDA 2 NONE
resource I2C_SDA 3 NONE
resource LED 1 C13
resource LED 2 NONE
resource LED 3 NONE
resource SPI_SCK 1 A05
resource SPI_SCK 2 B13
resource SPI_SCK 3 B03
resource SPI_MISO 1 A06
resource SPI_MISO 2 C02
resource SPI_MISO 3 B04
resource SPI_MOSI 1 A07
resource SPI_MOSI 2 C03
resource SPI_MOSI 3 B05
resource ESCSERIAL 1 NONE
resource ADC_BATT 1 C00
resource ADC_RSSI 1 C05
resource ADC_CURR 1 C01
resource ADC_EXT 1 NONE
resource BARO_CS 1 NONE
resource BARO_EOC 1 NONE
resource BARO_XCLR 1 NONE
resource PINIO 1 B11
resource PINIO 2 NONE
resource PINIO 3 NONE
resource PINIO 4 NONE
resource USB_MSC_PIN 1 NONE
resource FLASH_CS 1 C14
resource OSD_CS 1 B12
resource GYRO_EXTI 1 C04
resource GYRO_EXTI 2 NONE
resource GYRO_CS 1 A04
resource GYRO_CS 2 NONE
resource USB_DETECT 1 NONE
resource PULLUP 1 NONE
resource PULLUP 2 NONE
resource PULLUP 3 NONE
resource PULLUP 4 NONE
resource PULLDOWN 1 NONE
resource PULLDOWN 2 NONE
resource PULLDOWN 3 NONE
resource PULLDOWN 4 NONE
# timer
timer B06 AF2
# pin B06: TIM4 CH1 (AF2)
timer B07 AF2
# pin B07: TIM4 CH2 (AF2)
timer B01 AF2
# pin B01: TIM3 CH4 (AF2)
timer B00 AF2
# pin B00: TIM3 CH3 (AF2)
timer B14 AF9
# pin B14: TIM12 CH1 (AF9)
timer A08 AF1
# pin A08: TIM1 CH1 (AF1)
timer A03 AF3
# pin A03: TIM9 CH2 (AF3)
# dma
dma SPI_MOSI 1 NONE
dma SPI_MOSI 2 NONE
dma SPI_MOSI 3 NONE
dma SPI_MISO 1 NONE
dma SPI_MISO 2 NONE
dma SPI_MISO 3 NONE
dma SPI_TX 1 NONE
dma SPI_TX 2 NONE
dma SPI_TX 3 NONE
dma SPI_RX 1 NONE
dma SPI_RX 2 NONE
dma SPI_RX 3 NONE
dma ADC 1 0
# ADC 1: DMA2 Stream 0 Channel 0
dma ADC 2 NONE
dma ADC 3 NONE
dma UART_TX 1 NONE
dma UART_TX 2 NONE
dma UART_TX 3 NONE
dma UART_TX 4 NONE
dma UART_TX 5 NONE
dma UART_TX 6 NONE
dma UART_TX 7 NONE
dma UART_TX 8 NONE
dma UART_RX 1 NONE
dma UART_RX 2 NONE
dma UART_RX 3 NONE
dma UART_RX 4 NONE
dma UART_RX 5 NONE
dma UART_RX 6 NONE
dma UART_RX 7 NONE
dma UART_RX 8 NONE
dma pin B06 0
# pin B06: DMA1 Stream 0 Channel 2
dma pin B07 0
# pin B07: DMA1 Stream 3 Channel 2
dma pin B01 0
# pin B01: DMA1 Stream 2 Channel 5
dma pin B00 0
# pin B00: DMA1 Stream 7 Channel 5
dma pin B14 NONE
dma pin A08 0
# pin A08: DMA2 Stream 6 Channel 0
dma pin A03 NONE
# feature
feature -RX_PPM
feature -INFLIGHT_ACC_CAL
feature -RX_SERIAL
feature -MOTOR_STOP
feature -SERVO_TILT
feature -SOFTSERIAL
feature -GPS
feature -RANGEFINDER
feature -TELEMETRY
feature -3D
feature -RX_PARALLEL_PWM
feature -RX_MSP
feature -RSSI_ADC
feature -LED_STRIP
feature -DISPLAY
feature -OSD
feature -CHANNEL_FORWARDING
feature -TRANSPONDER
feature -AIRMODE
feature -RX_SPI
feature -ESC_SENSOR
feature -ANTI_GRAVITY
feature RX_SERIAL
feature GPS
feature TELEMETRY
feature OSD
feature AIRMODE
feature ESC_SENSOR
feature ANTI_GRAVITY
# serial
serial 20 1 115200 57600 0 115200
serial 0 131073 115200 57600 0 115200
serial 1 64 115200 57600 0 115200
serial 2 0 115200 57600 0 115200
serial 3 1 115200 57600 0 115200
serial 4 1024 115200 57600 0 115200
serial 5 2 115200 115200 0 115200
# mixer
mixer QUADX
mmix reset
# beeper
beeper GYRO_CALIBRATED
beeper RX_LOST
beeper RX_LOST_LANDING
beeper DISARMING
beeper ARMING
beeper ARMING_GPS_FIX
beeper ARMING_GPS_NO_FIX
beeper BAT_CRIT_LOW
beeper BAT_LOW
beeper GPS_STATUS
beeper RX_SET
beeper ACC_CALIBRATION
beeper ACC_CALIBRATION_FAIL
beeper READY_BEEP
beeper MULTI_BEEPS
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_LOST
beacon RX_SET
# map
map AETR1234
# led
led 0 0,0::C:0
led 1 0,0::C:0
led 2 0,0::C:0
led 3 0,0::C:0
led 4 0,0::C:0
led 5 0,0::C:0
led 6 0,0::C:0
led 7 0,0::C:0
led 8 0,0::C:0
led 9 0,0::C:0
led 10 0,0::C:0
led 11 0,0::C:0
led 12 0,0::C:0
led 13 0,0::C:0
led 14 0,0::C:0
led 15 0,0::C:0
led 16 0,0::C:0
led 17 0,0::C:0
led 18 0,0::C:0
led 19 0,0::C:0
led 20 0,0::C:0
led 21 0,0::C:0
led 22 0,0::C:0
led 23 0,0::C:0
led 24 0,0::C:0
led 25 0,0::C:0
led 26 0,0::C:0
led 27 0,0::C:0
led 28 0,0::C:0
led 29 0,0::C:0
led 30 0,0::C:0
led 31 0,0::C:0
# color
color 0 0,0,0
color 1 0,255,255
color 2 0,0,255
color 3 30,0,255
color 4 60,0,255
color 5 90,0,255
color 6 120,0,255
color 7 150,0,255
color 8 180,0,255
color 9 210,0,255
color 10 240,0,255
color 11 270,0,255
color 12 300,0,255
color 13 330,0,255
color 14 0,0,0
color 15 0,0,0
# mode_color
mode_color 0 0 1
mode_color 0 1 11
mode_color 0 2 2
mode_color 0 3 13
mode_color 0 4 10
mode_color 0 5 3
mode_color 1 0 5
mode_color 1 1 11
mode_color 1 2 3
mode_color 1 3 13
mode_color 1 4 10
mode_color 1 5 3
mode_color 2 0 10
mode_color 2 1 11
mode_color 2 2 4
mode_color 2 3 13
mode_color 2 4 10
mode_color 2 5 3
mode_color 3 0 8
mode_color 3 1 11
mode_color 3 2 4
mode_color 3 3 13
mode_color 3 4 10
mode_color 3 5 3
mode_color 4 0 7
mode_color 4 1 11
mode_color 4 2 3
mode_color 4 3 13
mode_color 4 4 10
mode_color 4 5 3
mode_color 5 0 0
mode_color 5 1 0
mode_color 5 2 0
mode_color 5 3 0
mode_color 5 4 0
mode_color 5 5 0
mode_color 6 0 6
mode_color 6 1 10
mode_color 6 2 1
mode_color 6 3 0
mode_color 6 4 0
mode_color 6 5 2
mode_color 6 6 3
mode_color 6 7 6
mode_color 6 8 0
mode_color 6 9 0
mode_color 6 10 0
mode_color 7 0 3
# aux
aux 0 0 0 1700 2100 0 0
aux 1 1 2 1300 2100 0 0
aux 2 46 2 1700 2100 0 0
aux 3 13 1 900 1300 0 0
aux 4 35 1 1700 2100 0 0
aux 5 0 0 900 900 0 0
aux 6 0 0 900 900 0 0
aux 7 0 0 900 900 0 0
aux 8 0 0 900 900 0 0
aux 9 0 0 900 900 0 0
aux 10 0 0 900 900 0 0
aux 11 0 0 900 900 0 0
aux 12 0 0 900 900 0 0
aux 13 0 0 900 900 0 0
aux 14 0 0 900 900 0 0
aux 15 0 0 900 900 0 0
aux 16 0 0 900 900 0 0
aux 17 0 0 900 900 0 0
aux 18 0 0 900 900 0 0
aux 19 0 0 900 900 0 0
# adjrange
adjrange 0 0 0 900 900 0 0 0 0
adjrange 1 0 0 900 900 0 0 0 0
adjrange 2 0 0 900 900 0 0 0 0
adjrange 3 0 0 900 900 0 0 0 0
adjrange 4 0 0 900 900 0 0 0 0
adjrange 5 0 0 900 900 0 0 0 0
adjrange 6 0 0 900 900 0 0 0 0
adjrange 7 0 0 900 900 0 0 0 0
adjrange 8 0 0 900 900 0 0 0 0
adjrange 9 0 0 900 900 0 0 0 0
adjrange 10 0 0 900 900 0 0 0 0
adjrange 11 0 0 900 900 0 0 0 0
adjrange 12 0 0 900 900 0 0 0 0
adjrange 13 0 0 900 900 0 0 0 0
adjrange 14 0 0 900 900 0 0 0 0
adjrange 15 0 0 900 900 0 0 0 0
adjrange 16 0 0 900 900 0 0 0 0
adjrange 17 0 0 900 900 0 0 0 0
adjrange 18 0 0 900 900 0 0 0 0
adjrange 19 0 0 900 900 0 0 0 0
adjrange 20 0 0 900 900 0 0 0 0
adjrange 21 0 0 900 900 0 0 0 0
adjrange 22 0 0 900 900 0 0 0 0
adjrange 23 0 0 900 900 0 0 0 0
adjrange 24 0 0 900 900 0 0 0 0
adjrange 25 0 0 900 900 0 0 0 0
adjrange 26 0 0 900 900 0 0 0 0
adjrange 27 0 0 900 900 0 0 0 0
adjrange 28 0 0 900 900 0 0 0 0
adjrange 29 0 0 900 900 0 0 0 0
# rxrange
rxrange 0 1000 2000
rxrange 1 1000 2000
rxrange 2 1000 2000
rxrange 3 1000 2000
# vtxtable
vtxtable bands 0
vtxtable channels 0
vtxtable powerlevels 0
vtxtable powervalues
vtxtable powerlabels
# vtx
vtx 0 0 0 0 0 900 900
vtx 1 0 0 0 0 900 900
vtx 2 0 0 0 0 900 900
vtx 3 0 0 0 0 900 900
vtx 4 0 0 0 0 900 900
vtx 5 0 0 0 0 900 900
vtx 6 0 0 0 0 900 900
vtx 7 0 0 0 0 900 900
vtx 8 0 0 0 0 900 900
vtx 9 0 0 0 0 900 900
# rxfail
rxfail 0 a
rxfail 1 a
rxfail 2 a
rxfail 3 s 1500
rxfail 4 h
rxfail 5 h
rxfail 6 s 1700
rxfail 7 h
rxfail 8 h
rxfail 9 h
rxfail 10 h
rxfail 11 h
rxfail 12 h
rxfail 13 h
rxfail 14 h
rxfail 15 h
rxfail 16 h
rxfail 17 h
# master
set gyro_hardware_lpf = NORMAL
set gyro_lpf1_type = PT1
set gyro_lpf1_static_hz = 0
set gyro_lpf2_type = PT1
set gyro_lpf2_static_hz = 600
set gyro_notch1_hz = 0
set gyro_notch1_cutoff = 0
set gyro_notch2_hz = 0
set gyro_notch2_cutoff = 0
set gyro_calib_duration = 125
set gyro_calib_noise_limit = 48
set gyro_offset_yaw = 0
set gyro_overflow_detect = ALL
set yaw_spin_recovery = AUTO
set yaw_spin_threshold = 1950
set gyro_to_use = FIRST
set dyn_notch_count = 1
set dyn_notch_q = 500
set dyn_notch_min_hz = 100
set dyn_notch_max_hz = 600
set gyro_lpf1_dyn_min_hz = 0
set gyro_lpf1_dyn_max_hz = 500
set gyro_lpf1_dyn_expo = 5
set gyro_filter_debug_axis = ROLL
set acc_hardware = AUTO
set acc_lpf_hz = 25
set acc_trim_pitch = 0
set acc_trim_roll = 0
set acc_calibration = -14,30,-24,1
set baro_bustype = I2C
set baro_spi_device = 0
set baro_i2c_device = 1
set baro_i2c_address = 0
set baro_hardware = AUTO
set mid_rc = 1500
set min_check = 1050
set max_check = 1900
set rssi_channel = 8
set rssi_src_frame_errors = OFF
set rssi_scale = 100
set rssi_offset = 0
set rssi_invert = OFF
set rssi_src_frame_lpf_period = 30
set rssi_smoothing = 125
set rc_smoothing = ON
set
@@fpvinprogress the cli dump not full here
I pasted everything of the cli above, nothing should be missing
@@fpvinprogress the #master section not fully paste there.. #profile & #rate also missing
I check later again then
Good video, but I can't help but feel like "tuning flight song" did all the hard work while "before and after flight song" got all the credit.
I am not that good on edit and I felt that the song didn’t fit in this video, but on the other hand the vtx doesn’t record audio, so I didn’t want to leave that section mute. Thanks for your feedback
@@fpvinprogress I just thought it was a catchy tune. The switch up at the end, I was like "Where'd my jam go!?" is all. You did a great job, dude!
@@William_NS thanks man, i'll keep in mind for next time that in a case like this even the music can mislead the whole intention of the video