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Dispositivo: 9C13-9ED2-5B3C
Vuelo ID: 1360Mostrar eventos
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Resumen del vuelo
Altitud
Apogeo
135.05 Metros
Tiempo al apogeo
5.51 seconds
Altitud fin combustión
51.76 m
Altitud vel. máx.
41.83 m
Altitud eyección
130.65 m
Altitud aterrizaje
-2.99 m
Estabilidad
Puntuación estabilidad
82.5 / 100 (Bueno)
Desglose de estabilidad
Inclinación al apagado (20%)93.8
Constancia de inclinación (15%)79.7
Cabeceo/guiñada (30%)68.4
Amortiguación (20%)100
Rectitud de empuje (15%)74.9
Velocidad
Máx. ascenso
48.38 m/s
Máx. descenso
-11.19 m/s
En fin combustión
46.230 m/s
Vel. aterrizaje
-5.222 m/s
Vel. descenso
-5.141 m/s
Vel. eyección
-8.41 m/s
Recovery
Single deploy (no dual deploy detected)
Aceleración
Máx. ascenso
6.63 G
Máx. descenso
22.47 G
Máx. durante combustión
6.63 G
Prom. ascenso
-0.02 G
Prom. combustión
3.28 G
Tiempos
Fin combustión (primero)
1.48 seconds
Apogeo
5.51 seconds
Posible eyección
6.427 seconds
Aterrizaje
32.86 seconds
Salida #1 ON
0 seconds
Salida #1 OFF
0 seconds
Ángulos
Inclinación rampa
24.79°
Incl. máx. hasta fin comb.
27.36°
Alabeo al lanzamiento
2.68°
Cabeceo al lanzamiento
-24.66°
Giro máx. (comb.)
290.75 dps
Giro prom. (comb.)
84.98 dps
General
Fecha subida
22-Mar at 11:02
Muestras de datos
2438
Tiempo total grabación
39.500 s
Prom. muestras/s
61.7
Número de bloqueos
0
Altitud grabación
37.49 m
Lanzamiento tras encendido
1m 38s
Eje de referencia
X
Batería & temperatura
Batería inicio
96%
Batería fin
94%
Temperatura inicio
16.43°C
Temperatura fin
16.14°C
Temp. MT1 lanzamiento
0°C
Reglas de salida
Sin reglas configuradas
Animación de datos
FLIGHT 1360
135.05 Meters
ALTITUDE
0.00m
VELOCITY
0.00m/s
ACCEL
0.00G
TILT
0.00°
PITCH
0.00°
ROLL
0.00°
YAW
0.00°
TIME
0.00s
AWAITING LAUNCH
ALT
altimetercloud.com
LAUNCH
T+0.00s
LANDING
BURNOUT
Motor burn complete
Nota: La animación de vuelo requiere que su altímetro esté montado en una orientación fija. Calibre sus sensores para mejores resultados.
Notas del usuario
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Vídeo Youtube
Sin vídeo
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Imágenes del vuelo (0)
Sin imágenes
Cohete vinculado
Ningún cohete vinculado a este vuelo
Información del dispositivo
Mercury V1
Este vuelo se realizó con un Mercury V1.
Versión hardware
Rev 3
Versión software
2.3
Última conexión
25-Mar at 03:51
Acelerómetro
32G 3-axis
Giroscopio
2000 dgps 3-axis
Sensor presión
Bosch BMP 581
Magnetómetro
N/A
Motores del vuelo
1st Stage
1x
Klima
C6-5
Burn time
1.60 seconds
Diameter
18.00 mm
Average thrust
6.00 N
Max thrust
15.00 N
Impulse
10.00 Ns
Impulse class
C
Total weight
20.50 g
Propellant weight
9.60 g
Propellant type
composite
Links
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Sitio de lanzamiento, fecha y hora
Haga clic en el mapa para marcar su sitio de lanzamiento. Cambie entre vista de mapa y satélite.
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Clic en el mapa · Arrastre para ajustar
Lat—
Lng—
✓ Launch location saved successfully.
✗ Could not save location — please try again.
Reglas de salida
Las reglas permiten al Mercury realizar acciones según las condiciones de vuelo. Cada regla tiene hasta 4 condiciones (A-D).
Rule 1
After launch onlyALL conditions (AND)Active during lockout
ACTION:OUTPUT #1
Conditions
AAltitude above pad (m)>0
❌No se activó
Rule 2
After launch onlyALL conditions (AND)Active during lockout
ACTION:OUTPUT #1
Conditions
AAltitude above pad (m)>0
❌No se activó
Rule 3
After launch onlyALL conditions (AND)Active during lockout
ACTION:OUTPUT #1
Conditions
AAltitude above pad (m)>0
❌No se activó
Rule 4
After launch onlyALL conditions (AND)Active during lockout
ACTION:OUTPUT #1
Conditions
AAltitude above pad (m)>0
❌No se activó
Rule 5
After launch onlyALL conditions (AND)Active during lockout
ACTION:OUTPUT #1
Conditions
AAltitude above pad (m)>0
❌No se activó
Rule 6
After launch onlyALL conditions (AND)Active during lockout
ACTION:OUTPUT #1
Conditions
AAltitude above pad (m)>0
❌No se activó
Coincidencia motor (BETA)
Aún en modo de prueba. Estamos averiguando qué motor se usó en el vuelo.
Marca
Motor
Puntos
Forma
Comb.
Loki
I377CT
109
81.7%
91%
AeroTech
H130W
97
83.3%
85.6%
AeroTech
J500G
94
73.6%
94.7%
Cesaroni
139-G107-WH_DT-12A
92
87.7%
88.5%
AeroTech
J520W
92
82.2%
88.3%
Contrail
J555
92
85.1%
81%
AeroTech
F35W
87
70.3%
87.5%
Cesaroni
H200-BS
86
64.4%
92.1%
Cesaroni
131-G84-GR-10A
84
76.6%
93.4%
AeroTech
F39T
84
73.8%
91.7%
Comparación de vuelo
Comparing against 11 other flights with the same motor configuration.
Highest apogee
The maximum altitude reached. Higher is better for altitude-focused flights.
135.05m|199.39 best8th
Best stability
Composite score from tilt, spin rate, and ascent efficiency. 100 is perfect.
82.5/100|82.5 best1st
Fastest velocity
Peak ascent velocity recorded during the flight.
48.38m/s|61.1 best5th
Best avg burn G
Average acceleration during motor burn, in G-force.
3.28G|3.56 best3rd
Longest flight
Total recording duration from launch to landing detection.
39.5s|52.3 best4th
Lowest spin
Average spin rate during burn. Lower means a straighter flight.
84.98dps|53.82 best6th
Coldest flight
Board temperature at launch. Cold conditions affect battery and sensors.
16.43C|0.16 best4th
Combustión del motor
Esta es la magnitud de salida del acelerómetro desde el lanzamiento hasta el fin de combustión.
You can check this against your motors thrust data on thrustcurve.org.
Ajustes generales del vuelo
Esta es una captura de los ajustes utilizados para este vuelo. Visite la
Visite la página Mis dispositivos y configure los ajustes..
Presión prevista
i
Set this to your local forecast pressure at sea level. This will offer you slightly improved accuracty for your flight, although it's not 100% essential every little helps!
Xcweather.co.uk is a decent place to grab pressures from for your location and time.
Xcweather.co.uk is a decent place to grab pressures from for your location and time.
1013.2 mbar
Detección lanzamiento
i
This is the altitude above the launch pad altitude where the altimeter will trigger itself into recording / flight mode.
The altimeter keeps a constant average of the pressure while waiting for launch, it uses a simple algorithm and the pre-flight buffers to do this. The most recent 120 samples (~4 seconds) are ignored so your pre-trigger altitude won't effect the ground baseline.
For almost all uses we suggest keeping this on the 25 Meter (~82 feet) default settings. If you want to test your altimeter by throwing it in the air, or are planning a very low flight you may want to lower the setting.
The altimeter keeps a constant average of the pressure while waiting for launch, it uses a simple algorithm and the pre-flight buffers to do this. The most recent 120 samples (~4 seconds) are ignored so your pre-trigger altitude won't effect the ground baseline.
For almost all uses we suggest keeping this on the 25 Meter (~82 feet) default settings. If you want to test your altimeter by throwing it in the air, or are planning a very low flight you may want to lower the setting.
25
meters
Sample ratio
i
The altimeter runs at 50Hz however you can record every sample or every X samples in order to extend the log time. For example if you set the ratio to 1 it will save 1:1 samples, or if you set it to 3 it will save 1 in 3 samples.
1:
Max samples
i
This is the maximum samples the altimeter will log per flight. When it reaches this amount it will stop and save the recording.
0
Recording stop
i
This setting is how the altimeter decides to stop recording. You can choose either 300 or 600 samples stable or it will record until it's 10000 sample limit unless you press the BUTTON in Manual stop mode.
The samples stable method waits for the devices altitude not to change for the set number of samples. This is defined by not changing by more than +/- 1.0 meters for 98% of the samples, it's a reliable method to stop the recording after landing within 8-10 seconds (300 sample) or 16-20 seconds (600 sample).
The samples stable method waits for the devices altitude not to change for the set number of samples. This is defined by not changing by more than +/- 1.0 meters for 98% of the samples, it's a reliable method to stop the recording after landing within 8-10 seconds (300 sample) or 16-20 seconds (600 sample).
Auto: 300 samples stable
Oversampling
i
Oversampling is a internal setting of the BMP 390 pressure sensor. It is how many samples are taken for each reading. By taking multiple samples for each pressure reading the altimeter reduces noise and increases the resolution of the output.
The sensor can run at 50 samples per second in 4X mode, so we suggest leaving it in this mode as it will offer the highest accuracy.
The sensor can run at 50 samples per second in 4X mode, so we suggest leaving it in this mode as it will offer the highest accuracy.
16x Oversampling
IIR filter
i
The IIR filter is another internal sensor for the BMP390 pressure sensor. It is a Infinite impulse response filter used to enhance pressure measurement accuracy by reducing noise. It's primarily for smoothing out rapid pressure changes.
We suggest not setting this too high as it will cause delay to changes in altitude if set very high.
We suggest not setting this too high as it will cause delay to changes in altitude if set very high.
COEFF 7
Pressure filter
i
This filter is a software Kalman filter that runs on the altimeters processor.
The Kalman filter uses a prediction step based on a system model and then a correction step using new measurements to refine its estimate, it creates accurate most certain results from data with noise in it.
The Kalman filter uses a prediction step based on a system model and then a correction step using new measurements to refine its estimate, it creates accurate most certain results from data with noise in it.
Kalman 2 (default)
Lockout time
i
The Lockout time is how long the altimeter should stop making decisions and taking actions if it detects unusual high speed altitude changes that are unexpected.
These false readings can be caused by ejection charges (if the altimeter is in the same compartment as the motor ejection gases) or even when you transition to Mach speeds and can give false readings of altitude changes.
When these events are detected the system enters Lockout for the specified time while it stabalises. This effects things like triggering the output, or calculating other data.
These false readings can be caused by ejection charges (if the altimeter is in the same compartment as the motor ejection gases) or even when you transition to Mach speeds and can give false readings of altitude changes.
When these events are detected the system enters Lockout for the specified time while it stabalises. This effects things like triggering the output, or calculating other data.
750ms
Lockout change
i
This is how we detect a lockout. If the pressure changes by this much in a single sample downwards (pressure increase, lower altitude) then it's likely to be a false reading. Multiply the setting by 32 to get the speed in meters per second that it will trigger at.
1.5 meters
Sync sensors
i
The filters on the pressure sensor can cause it to lag very slightly behind the Accelerometer and Gyroscope data.
The Sync sensors option detects how far out of sync these sensors are. It then corrects the Acceleration and Gyroscope readings to match the pressure sensor.
ACTIVADO (25 samples / 430.00ms)
Orientation
i
This is the orientation you intend to install the Altimeter in your rocket. It's needed to ensure completly accurate angles and orientation charts and reports. Check out the Manual for more information on this.
Upwards (text up)
IMU filter
i
The IMU filter, or fusion filter takes the data from each axis of the Gyroscope and Accelerometer to calculate the Pitch, Roll, Yaw and tilt angle from vertical.
These filters can build up some discrepency over time so it's important to calibrate your sensors to minimise this.
Madgwick 6-Axis
Launch ALP
i
This is prevention against accidental launch detection.
With this disabled the launch is based only on pressure and something that creates a low pressure can trigger the flight by accident. For example pulling your nose cone off can even trigger it.
With this enabled the rocket also needs to have seen 8 samples (0.25 seconds) of acceleration above this setting in the last 3 seconds as well as the pressure drop to trigger. There is a backup trigger of 1.05 seconds of altitude being above the launch detect setting too.
There are very few situations where this option would cause issues, so we suggest leaving it on.
With this disabled the launch is based only on pressure and something that creates a low pressure can trigger the flight by accident. For example pulling your nose cone off can even trigger it.
With this enabled the rocket also needs to have seen 8 samples (0.25 seconds) of acceleration above this setting in the last 3 seconds as well as the pressure drop to trigger. There is a backup trigger of 1.05 seconds of altitude being above the launch detect setting too.
There are very few situations where this option would cause issues, so we suggest leaving it on.
1.4G
Launch lock
i
When enabled, the altimeter locks out recording for a set period after power on to prevent false triggering during setup.
DISABLED
Static temperature
i
A fixed temperature value used for altitude calculation when the external temperature sensor is disabled or not connected.
15.00 °C
Temp sensor
i
If an external MT1 temperature sensor is connected, this controls whether it is used for logging only or also for altitude calculations.
DISABLED
Ajustes de salida
Esta es una captura de los ajustes utilizados para este vuelo.
Salida 1 activada
i
Disable or enable the output from being able to turn on or off.
DESACTIVADO
Salida 1 disparador
i
After apogee (altitude)
This method triggers when the altitude drops below the set altitude after apogee is detected.After apogee (time)
This method triggers the defined seconds after apogee is detected.After launch (altitude)
This method is activated if/once the altimeter exceeds the set altitude after launch.After launch (time)
This option triggers the defined seconds after launch is detected.After burnout (time)
This method triggers the defined seconds after burnout is detected.
After apogee (altitude)
Salida 1 tiempo encendido
i
This is how long the output should trigger ON state when the rules are met.
2000ms
Salida 1 altitud
i
This is the altitude to trigger at if using a trigger method that works on altitude.
For example if you set this to 75m and After apogee (altitude) for the trigger then the output will turn on at 75m on descent above the launch altitude.
For example if you set this to 75m and After apogee (altitude) for the trigger then the output will turn on at 75m on descent above the launch altitude.
0 meters
Salida 1 tiempo
i
This is the time variable for output triggers that work on time.
For example if you set this to 3 seconds and After apogee (time) as the trigger then the output will turn on 3 seconds after apogee.
For example if you set this to 3 seconds and After apogee (time) as the trigger then the output will turn on 3 seconds after apogee.
0 seconds
Bloqueo altitud
i
Altitude lock is a safety feature that prevents the output from triggering if the altitude is below this level when the rules are met.
50.00 m
Bloqueo inclinación
i
This is another safety feature. It can be used to disable the output if the rocket has gone too far from vertical.
For example if you set the tilt angle lock to 40 degrees then the output will not fire if the rocket is more than 40 degrees from vertical. To disable set this to 0.
For example if you set the tilt angle lock to 40 degrees then the output will not fire if the rocket is more than 40 degrees from vertical. To disable set this to 0.
0.00 °
Calibración de sensores
Compensaciones de calibración usadas en este vuelo.
Giroscopio
X
0.490°
Y
-0.370°
Z
-0.530°
Acelerómetro
X
-14.310 mG
Y
14.090 mG
Z
11.770 mG
Ajustes del dispositivo
Esta es una captura de los ajustes utilizados para este vuelo.
Esta es una captura de los ajustes utilizados para este vuelo.
TAG dispositivo
i
A custom name or tag assigned to this device for easy identification.
Merc8554
Idioma
i
The language setting configured on the device.
en
Modo apagado
i
Controls what happens after recording. Standard shuts down normally, Delayed keeps WiFi on for 30 seconds after landing, Stay on keeps the device powered on.
Delayed 30s
Brillo LED
i
The brightness level of the LED indicators on the Mercury. Lower values save battery.
20%
Potencia WiFi TX
i
WiFi transmit power level. Higher gives better range but uses more battery.
12000
Modo reposo
i
Controls whether the device enters low-power sleep when idle.
Stay awake
Monitor batería
i
Monitors battery voltage during the flight.
DISABLED
Grupo cloud
i
The cloud group / category this flight is assigned to.
1
Puertos GP6 / GP7
Configuración de los puertos GP6 y GP7 para canales pirotécnicos, servos u otros.
Modo canal 6
ON = HIGH
Ch6 min pulse (µs)
0
Ch6 max pulse (µs)
1000
Ch6 frequency
0 Hz
Ch6 angle ON
50°
Ch6 angle OFF
170.00°
Ch6 on time
10.00s
Modo canal 7
ON = HIGH
Ch7 min pulse (µs)
2000
Ch7 max pulse (µs)
1000
Ch7 frequency
50 Hz
Ch7 angle ON
170.00°
Ch7 angle OFF
10.00°
Ch7 on time
2.00s
Placa servo I2C PCA9685
Esta es una captura de los ajustes utilizados para este vuelo.
Configuration for the external I2C PCA9685 servo expansion board. This board provides up to 6 additional servo channels.
Servo board
i
Enable or disable the external I2C PCA9685 servo expansion board.
ENABLED
Oscillator freq
i
The oscillator frequency of the PCA9685 chip. Default is 25000000 (25 MHz). Adjust only if your board has a different crystal.
2.00 Hz
Min pulse width
i
The minimum pulse width in microseconds for the servo range. Standard servos typically use 500-600 µs as minimum.
25000000 µs
Max pulse width
i
The maximum pulse width in microseconds for the servo range. Standard servos typically use 2400-2500 µs as maximum.
600 µs
PWM frequency
i
The PWM frequency for all servos on the board. Standard servos use 50 Hz.
2400 Hz
Servo 1
OFF: iservo_freq:50°
ON: iservo1_off10°
Time: iservo1_on170s
Servo 2
OFF: iservo1_time2.00°
ON: iservo2_off10°
Time: iservo2_on170s
Servo 3
OFF: iservo2_time2.00°
ON: iservo3_off10°
Time: iservo3_on170s
Servo 4
OFF: iservo3_time2.00°
ON: iservo4_off10°
Time: iservo4_on170s
Servo 5
OFF: iservo4_time2.00°
ON: iservo5_off10°
Time: iservo5_on170s
Servo 6
OFF: iservo5_time2.00°
ON: iservo6_off10°
Time: iservo6_on170s
Predicción y aerofrenos
Esta es una captura de los ajustes utilizados para este vuelo.
El Mercury puede predecir el apogeo durante la fase de planeo. Estos ajustes controlan el cálculo y el aerofreno.
Masa seca
i
The total mass of the rocket after motor burnout (dry mass). This is used for the ballistic prediction of apogee altitude. Enter the mass without the motor propellant, or the mass at burnout.
99/0/0.00 kg
Coef. arrastre
i
The aerodynamic drag coefficient (Cd) of the rocket. This is used with the rocket area to calculate aerodynamic drag during coast. A typical model rocket has a Cd of 0.4 to 0.8. You can find this value from OpenRocket or RockSim simulations.
0.1500
Área referencia
i
The cross-sectional reference area of the rocket in square meters. This is typically the area of a circle with the body tube diameter. For example a 38mm tube has an area of approximately 0.00113 m².
0.750 m²
Gas constant
i
The specific gas constant for dry air, used in the atmospheric model for altitude and density calculations. The standard value is 287.05 J/(kg·K). You shouldn't need to change this unless you know what you're doing.
0.00100 J/(kg·K)
Los siguientes ajustes configuran el sistema de aerofreno.
Aerofreno activado
i
Enables or disables the active air braking system. When enabled, the Mercury will deploy air brakes via the configured servo channel to try and reach the target altitude. Firmware 2.1+ required.
ON
Servo channel
i
Which servo output channel the air brake mechanism is connected to. GP6 and GP7 are the two onboard servo headers, I2C channels are for an external servo expander board.
GP6
Deploy speed
i
The speed at which the air brakes deploy. The Mercury gradually increases the servo angle until the predicted apogee matches the target rather than going full on/off. This setting controls how quickly it ramps up to full braking.
5.00
Altitud objetivo
i
The target apogee altitude in meters. The air brake system will try to slow the rocket so it reaches this altitude.
0 m
Over shoot %
i
The percentage over the target altitude to aim for until within 15% of the target. This helps prevent undershooting if the prediction is slightly off early in the coast. For example, with a 1000m target and 5% early adjustment, the Mercury will aim for 1050m until it passes 850m.
300.00%
Activation altitude
i
The air brake system activates after burnout, but won't engage until the rocket has reached this percentage of the target altitude. This prevents the brakes from deploying too early when predictions may be less accurate.
20% (default)
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