Open GoogleCodeExporter opened 8 years ago
Absolutely perfect requirement.
Original comment by vu2...@gmail.com
on 2 Jan 2012 at 6:39
We will consider this further. However, the user has to take some
responsibility for following proper procedures, as just locking down the
throttle till some user interaction happens is in direct conflict with the
in-air restart capability of the system which is also an important feature.
There is an existing feature that suppresses the throttle if the system
believes it is on the ground and the mode is FBW-B or higher. See attitude.pde
around line 340.
Leaving the issue open for consideration of improvements....
Original comment by dewei...@gmail.com
on 3 Jan 2012 at 4:45
This is a difference between ArduPlane and ArduCopter by the way. ArduPlane
has in-air restart capability. ArduCopter does not. ArduPlane can recover
from an in air reboot (due to power brown-out or other issues) while ArduCopter
will crash.
Original comment by dewei...@gmail.com
on 3 Jan 2012 at 4:47
[deleted comment]
OK, I didn't realize you had something in there already, and it works as you
describe.
However, starting from everything powered down, but with THR_MIN previously set
to a non-zero value.
1. Turn on the RC Tx, set the control channel to something that is non-manual
and non-auto (e.g. STABILIZE or FBW_A), but with throttle set to 0% (1100 us in
my case).
2. Plug in the battery to the aircraft.
The motor will start and run at speed that is controlled by the THR_MIN value.
I can also start the APM with the control channel set to MANUAL and the
throttle set to 0% (the motor won't run), then select STABILIZE or FBW_A and
the motor will start and run at the speed selected by the THR_MIN setting.
I suspect the above would might happen in manual, except that the mux routes
the RC3 input directly to the RC3 output.
Here are the settings I have that result in the behaviour described, as dumped
from the CLI setup|show command:
Raw Values
----------------------------------------
130:IMU_SENSOR_CAL : ??
013:FLAP_2_SPEED : -1
012:FLAP_2_PERCNT : 0
011:FLAP_1_SPEED : -1
010:FLAP_1_PERCNT : 0
144:ARSPD_ENABLE : 0
143:SONAR_ENABLE : 0
157:INVERTEDFLT_CH : 0
141:BATT_CAPACITY : 1760
140:INPUT_VOLTS : 4.680000
139:AMP_PER_VOLT : 27.320000
138:VOLT_DIVIDER : 3.856212
137:BATT_MONITOR : 3
135:MAG_ENABLE : 0
134:GND_ABS_PRESS : 102366
133:GND_TEMP : 29
156:ALT_HOLD_RTL : 8000
005:TRIM_PITCH_CD : 0
158:MIN_GNDSPD_CM : 0
155:TRIM_ARSPD_CM : 3000
016:RST_SWITCH_CH : 0
015:LOG_LASTFILE : 49
004:LOG_BITMASK : 334
014:SYS_NUM_RESETS : 213
009:ELEVON_CH2_REV : 0
008:ELEVON_CH1_REV : 1
007:ELEVON_REVERSE : 0
006:ELEVON_MIXING : 1
003:SWITCH_ENABLE : 0
002:TRIM_AUTO : 1
154:LIM_PITCH_MIN : -2500
153:LIM_PITCH_MAX : 1500
152:LIM_ROLL_CD : 8000
216:FLTMODE6 : 0
215:FLTMODE5 : 0
214:FLTMODE4 : 2
213:FLTMODE3 : 5
212:FLTMODE2 : 11
211:FLTMODE1 : 10
210:FLTMODE_CH : 8
185:FS_GCS_ENABL : 0
184:FS_LONG_ACTN : 0
183:FS_SHORT_ACTN : 0
182:TRIM_THROTTLE : 55
181:THR_FS_VALUE : 950
180:THR_FAILSAFE : 1
186:THR_SLEWRATE : 0
179:THR_MAX : 75
178:THR_MIN : 12
122:ALT_HOLD_FBWCM : 0
121:ARSPD_FBW_MAX : 38
120:ARSPD_FBW_MIN : 13
229:FENCE_MAXALT : 0
228:FENCE_MINALT : 0
227:FENCE_CHANNEL : 0
226:FENCE_TOTAL : 0
225:FENCE_ACTION : 0
224:WP_LOITER_RAD : 60
223:WP_RADIUS : 20
222:CMD_INDEX : 0
221:CMD_TOTAL : 7
142:ARSPD_OFFSET : 3445
132:ARSPD_RATIO : 1.994000
131:ALT_MIX : 1.000000
151:XTRK_ANGLE_CD : 3000
150:XTRK_GAIN_SC : 10.000000
203:KFF_THR2PTCH : 0.000000
202:KFF_PTCH2THR : 0.000000
201:KFF_RDDRMIX : 0.500000
200:KFF_PTCHCOMP : 0.227000
114:SERIAL3_BAUD : 57
113:SYSID_MYGCS : 255
112:SYSID_THISMAV : 1
001:SYSID_SW_TYPE : 0
000:SYSID_SW_MREV : 12
65535:SR3_RAW_SENS : 3
65535:SR0_RAW_SENS : 3
65535:ALT2PTCH_P : 0.650000
65535:ENRGY2THR_P : 0.500000
65535:YW2SRV_P : 0.500000
65535:ARSP2PTCH_P : 0.650000
65535:PTCH2SRV_P : 0.250000
65535:RLL2SRV_P : 0.199219
65535:HDNG2RLL_P : 0.700000
65535:RC8_MIN : 1192
65535:RC7_MIN : 1099
65535:RC6_MIN : 1100
65535:RC5_MIN : 1498
65535:RC4_MIN : 1216
65535:RC3_MIN : 1099
65535:RC2_MIN : 1350
65535:RC1_MIN : 1350
65535:SR3_EXT_STAT : 1
65535:SR0_EXT_STAT : 1
65535:ALT2PTCH_I : 0.000000
65535:ENRGY2THR_I : 0.000000
65535:YW2SRV_I : 0.000000
65535:ARSP2PTCH_I : 0.000000
65535:PTCH2SRV_I : 0.000000
65535:RLL2SRV_I : 0.000000
65535:HDNG2RLL_I : 0.000000
65535:RC8_TRIM : 1500
65535:RC7_TRIM : 1500
65535:RC6_TRIM : 1500
65535:RC5_TRIM : 1500
65535:RC4_TRIM : 1511
65535:RC3_TRIM : 1500
65535:RC2_TRIM : 1500
65535:RC1_TRIM : 1500
65535:SR3_RC_CHAN : 3
65535:SR0_RC_CHAN : 3
65535:COMPASS_DEC : 0.000000
65535:ALT2PTCH_D : 0.000000
65535:ENRGY2THR_D : 0.000000
65535:YW2SRV_D : 0.000000
65535:ARSP2PTCH_D : 0.000000
65535:PTCH2SRV_D : 0.000000
65535:RLL2SRV_D : 0.000000
65535:HDNG2RLL_D : 0.020000
65535:RC8_MAX : 1850
65535:RC7_MAX : 1940
65535:RC6_MAX : 1941
65535:RC5_MAX : 1499
65535:RC4_MAX : 1804
65535:RC3_MAX : 1941
65535:RC2_MAX : 1650
65535:RC1_MAX : 1650
65535:SR3_RAW_CTRL : 0
65535:SR0_RAW_CTRL : 0
65535:ALT2PTCH_IMAX : 500
65535:ENRGY2THR_IMAX : 20
65535:YW2SRV_IMAX : 500
65535:ARSP2PTCH_IMAX : 500
65535:PTCH2SRV_IMAX : 500
65535:RLL2SRV_IMAX : 500
65535:HDNG2RLL_IMAX : 500
65535:RC8_REV : 1
65535:RC7_REV : 1
65535:RC6_REV : 1
65535:RC5_REV : 1
65535:RC4_REV : -1
65535:RC3_REV : 1
65535:RC2_REV : 1
65535:RC1_REV : 1
65535:SR3_POSITION : 3
65535:SR0_POSITION : 3
65535:RC8_FUNCTION : 0
65535:RC8_DZ : 0
65535:RC7_FUNCTION : 0
65535:RC7_DZ : 0
65535:RC6_FUNCTION : 0
65535:RC6_DZ : 0
65535:RC5_FUNCTION : 0
65535:RC5_DZ : 0
65535:RC4_DZ : 30
65535:RC3_DZ : 3
65535:RC2_DZ : 30
65535:RC1_DZ : 30
65535:SR3_EXTRA1 : 10
65535:SR0_EXTRA1 : 10
65535:RC8_ANGLE_MIN : -4500
65535:RC7_ANGLE_MIN : -4500
65535:RC6_ANGLE_MIN : -4500
65535:RC5_ANGLE_MIN : -4500
65535:SR3_EXTRA2 : 10
65535:SR0_EXTRA2 : 10
65535:RC8_ANGLE_MAX : 4500
65535:RC7_ANGLE_MAX : 4500
65535:RC6_ANGLE_MAX : 4500
65535:RC5_ANGLE_MAX : 4500
65535:SR3_EXTRA3 : 0
65535:SR0_EXTRA3 : 0
Original comment by philcole...@gmail.com
on 4 Jan 2012 at 8:53
I'd like to suggest that a specific 'kill switch' be added in to the system.
Not a software setting but an actual physical jumper for the arduplane that
when connected will prevent the motors from firing up.
I'm fairly new to the arduplane, but having worked with multi-rotors and having
read horror stories of lost fingers (or worse) some form of safety feature is a
must. To me it seems like a physical jumper is the best option to provide
99.95% certainty of motors being disarmed while still preserving the ability to
reboot in flight.
Original comment by Ouds...@gmail.com
on 13 Aug 2012 at 7:05
Original issue reported on code.google.com by
philcole...@gmail.com
on 1 Jan 2012 at 8:42