Rx47 - Programming v611
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1. PROGRAMMING APPROACH:
Settings in the Rx can be changed using a joystick Tx or a suitable programing device (Tx20, Prog1, Prog3, Prog4). All use the structure in the table below. One output or feature (ie: one row in the table) is programmed at a time. Each change usually comprises a 5 number sequence. Numbers from the first two columns usually select the output and the other three change its characteristics. [KEYWORDS] provide links to more detailed descriptions of each feature.
Outputs are usually controlled by channels. Each knob or switch on the Tx controls one channel. Outputs like motor and servos are used in a proportional manner. This allows very fine control, usually 512 or 1024 step resolution. Channels controlling outputs that switch on/off usually divide the channel into 2 or 3 positions: low, center and high. Menu 12 and 13 allows one channel to have up to 12 positions to control more things.
2. PROGRAMMING OPTIONS:
Level 1 |
Level 2 |
Level 3 |
Level 4 |
Level 5 |
Information |
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Menu 1 Motor |
Output number: | Output type: | Channel number: | Other: | |
1 | 1-4 = H1-H4 |
1 = Center off (1ch, half each way) [M-TYPE-1] |
1-18 = Channel |
Forward and Reverse with one control (-100% < 0 > +100%) |
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1 | 1-4 = H1-H4 |
2 = Low off (2ch: speed + direction) [M-TYPE-2] |
1-18 = Channel Throttle |
1-18 = Channel Direction |
One control for Throttle (0 ~ 100%) Second control for Direction |
1 | 1 = H1+H2 |
3 = Combo [M-COMBO] |
1 = Disabled (H1/H2 controlled separately) 2 = Enabled (H1/H2 work as one) |
Parallel two outputs for higher current handling When enabled, H1 settings control H1 and H2 (eg: 1,1,3,2 = H1+H2 used as one output) (eg: 1,1,3,1 = H1 and H2 controlled separately) |
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1 | 1-4 = H1-H4 |
4 = Start power (0-100%) [M-MIN] |
0-10 = Tens (x10) (0-flash = 0) |
0-9 = Ones (x1) (0-flash = 0) |
Minimum power level (0% for full power range) |
1 | 1-4 = H1-H4 |
5 = Max power (0-100%) [M-MAX] |
0-10 = Tens (x10) (0-flash = 0) |
0-9 = Ones (x1) (0-flash = 0) |
Maximum power level (100% for full power range) |
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1 | 1-4 = H1-H4 |
6 = Motor Reverse [M-REV] |
1 = Normal 2 = Reversed 3 * Normal (no toggle) 4 = Reversed (no toggle) |
Options 1/2 allow motor direction to be toggled if throttle is at max at startup Options 3/4 do not |
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1 |
1 = H1/H2 2 = not used 3 = H3 4 = H4/F1/F2 |
7 = PWM Frequency [M-PWM] |
1 = 16 kHz 2 = 2 kHz 3 = 500 Hz 4 = 120 Hz |
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1 | 1-4 = H1-H4 |
8 = Soft start / Inertia [M-SOFT] |
1 = immediate 2 = 0.25s 3 = 0.5s 4 = 1s 5 = 2s 6 = 4s 7 = 8s |
Speed of throttle change (0-100% durations): (eg: 1,1,8,4 = H1, 1s inertia) (eg: 1,2,8,4 = H2, 1s inertia) (1=immediate/no inertia from v611-2) |
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1 | 1 = 1st Ch |
9 = 2 channel mix [M-MIX] |
1-7 = 1st Ch 1-7 |
1 = 25% mix 2 = 50% mix 3 = 75% mix 4 = 100% mix |
H1/H2 used as a pair (center off) 1st channel is primary basis for H1 and H2 |
1 | 2 = 2nd Ch | 9 = 2 channel mix | 1-7 = 2nd Ch 1-7 |
1 = not reversed 2 = reversed |
Part of above 2nd channel makes one output more and the other less 1st Ch must be configured before 2nd Ch |
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Menu 2 Servo, Brake, Reverse, Indicator |
Pad number: | Output type: | Channel number: | Other: | |
2 |
1-14 = P1-P14 15-16 = F1-F2 |
1 = Servo (normal) [SERVO-1] |
1-18 = Channel |
1 = normal speed 2-6 = slow motion |
Servo on any pad Full throw from full stick movement |
2 |
1-14 = P1-P14 15-16 = F1-F2 |
2 = Servo (offset) [SERVO-2] |
1-18 = Channel |
1 = low/right stick 2 = high/left stick |
Servo on any pad Full throw from half stick movement |
2 |
1-8 = P1-P8 |
3 = Servo (toggle) [SERVO-3] |
1-18 = Channel |
1 = 60% throw 2 = 70% throw 3 = 80% throw 4 = 90% throw 5 = 100% throw 6 = 110% throw 7 = 120% throw |
Servo toggles each time Channel is low This allows operation with a pushbutton |
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2 | 1 = 1st Ch |
4 = Servo (mixed) 2-channel mix [SERVO-4a] |
1-18 = Primary Ch |
1 = 25% mix 2 = 50% mix 3 = 75% mix 4 = 100% mix |
P1/P2 used as a pair Primary channel and Mix% |
2 | 2 = 2nd Ch |
4 = Servo (mixed) 2-channel mix [SERVO-4b] |
1-18 = Secondary Ch |
1 = not reversed 2 = reversed |
Part of above 2nd channel makes one output more and the other less 1st Ch must be configured before 2nd Ch |
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2 |
1-14 = P1-P14 |
5 = Brake or Reverse led [BR-REV] |
1-4 = H1-H4 |
1 = Brake 2 = Reverse |
One H output controls brake/reverse light (eg: 2,3,5,1,1 = P3 using H1 channel for Brake) (eg: 2,4,5,1,2 = P4 using H1 channel for Reverse) Brake 'ON time' is adjustable (see [BRAKE] below) |
2 |
1-14 = P1-P14 |
6 = Left indicator led 7 = Right indicator led 8 = Flashing led (0.5s) [FLASH] |
1-18 = Activating Ch (switch/lever on a car) |
1-18 = Steering Ch (steering wheel on a car) |
1 'activating' channel controls 3 outputs |
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Menu 3 Led, On/Off, Serial, Automation |
Pad number: | Output type: | Channel number: | Switch Action: | |
3 |
1-14 = P1-P14 15-16 = F1-F2 |
1 = On/Off led (momentary) [MOM] |
1-18 = Channel |
Idle low (0v): 1 = Ch low 3v 2 = Ch mid 3v 3 = Ch high 3v Idle high (3v): 4 = Ch low 0v 5 = Ch mid 0v 6 = Ch high 0v |
1 channel controls 1-3 outputs 'Momentary' = non-latching |
3 |
1-14 = P1-P14 15-16 = F1-F2 |
2 = On/Off led (latching) [LATCH-1] |
1-18 = Channel |
Start low (0v): 1 = Ch low toggle 2 = Ch high toggle Start high (3v): 3 = Ch low toggle 4 = Ch high toggle |
1 channel controls 1-2 outputs Each move toggles on/off |
3 |
1-14 = P1-P14 15-16 = F1-F2 |
3 = On/Off led (latching) [LATCH-2] |
1-18 = Channel |
Channel 'high': 1 = >2s toggle 2 = <2s toggle Channel 'low': 3 = >2s toggle 4 = <2s toggle |
1 channel controls 1-4 outputs On/off based on time from center Outputs start low (0v) |
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Directional lights |
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3 |
1-14 = P1-P14 15-16 = F1-F2 |
4 = Directional lights [DIR-LIGHT-1] |
1 = Front 2 = Rear |
1-4 = H1-H4 (controlling motor) |
Enable any number of directional lights (other control settings below) (eg: 3,1,4,1,1 = P1, Front, H1 direction) (eg: 3,2,4,2,1 = P2, Rear, H1 direction) |
3 |
1 |
5 = Control settings [DIR-LIGHT-2] |
0 = Auto 1-18 = Channel |
Controlled with a channel: Latch (toggle) 1 = Ch low 2 = Ch high Momentary 3 = Ch high on (mid/low off) |
Common settings for all Directional lights Channel is used to switch feature on/off remotely (eg: 3,1,5,0 = Auto, always on) (eg: 3,1,5,5,1 = Switch feature on/off with Ch5) |
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Serial |
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3 |
1-14 = P1-P14 15-16 = F1-F2 |
6 = SumPPM / CPPM [SUM] |
1 = Idle high 2 = Idle low |
1 = Normal 2 = +RSSI pulse |
RSSI pulse: 0.9-2.1ms = 0-31 signal strength |
3 | 11 = P11 only |
7 = Serial data [SERIAL] |
Baud rate: 1 = 125k 2 = 250k 3 = 500k |
1 = High byte first 2 = Low byte first |
Channel data, Volts, RSSI Pad P11 only |
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Automation | |||||
3 |
1-8 = P1-P8 |
8 = Buffer Stop [BUFFER1] |
Time to stop: 1-6 = 1-6 seconds |
Reactivate trigger: 1-6 = 10-60s (time to 'back out') |
ONE pad can detect external trigger to control H1 Action: Slow to a stop Close throttle to rearm (manual). |
3 |
1-8 = P1-P8 |
9 = Stop & Reverse [BUFFER2] |
Time to stop: 1-6 = 1-6 seconds |
Fixed pause time: 1-6 = 4,8,15,30,45,60s Random pause time: 7 = 4-8s 8 = 8-15s 9 = 15-30s 10 = 30-45s 11 = 45-60s |
ONE pad can detect external trigger to control H1 Action: Stop-Pause-Reverse (auto). |
3 |
1-8 = P1-P8 |
10 = Station stop and continue [BUFFER3] |
Time to stop: 1-6 = 1-6 seconds |
Pause time: As above |
ONE pad can detect external trigger to control H1 Action: Stop-Pause-Continue (auto). |
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3 |
1-8 = P1-P8 |
11 = Limit switches [LIMIT] |
1-4 flash = H output |
1 flash = Low side of H 2 flash = High side of H 'High side' means the channel controlling the H output is high (eg: 'forward') |
One 'P' can inhibit one side of one H output Two P are needed to control both directions eg: 3,5,11,2,1 = P5 controls Low side of H2 eg: 3,6,11,2,2 = P6 controls High side of H2 H is active when 'P' is floating/high (internal pullup) H is disabled when 'P' is low (0v) (from v611-9) |
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Menu 4 Not used |
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Menu 5 Complex flash patterns (from v611-2) |
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Patterns are created by switching pads on/off: 1-128 elements create each pattern (on/off pairs) 1-2 patterns can be defined 1-16 outputs can be used 1-255 time periods Auto-repeating (eg: Knight Rider, Morse signal, revolving light) Examples |
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Control settings |
Set these before ON/OFF times |
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5 | 1 |
1 = Control-1 [SEQ-0A] |
0 = Multi-1 control 1-18 = Channel |
Set controlling Channel (eg: 5,1,1,4 = Ch4) Flashes can also be triggered with Menu 12 |
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5 | 1 |
2 = Control-2 [SEQ-0B] |
Number of Patterns (and switch action) 1 pattern: 1 = Ch low on 2 = Ch high on 3 = Ch low toggle 4 = Ch high toggle 2 patterns: 5 = Momentary 6 = Latching (Ch low=Pattern 1) (Ch high=Pattern 2) |
Initialise On/Off times to 0 1 = No (do not change) 1 pattern: 2 = Yes (128 Elements) (yes = delete on/off times) 2 patterns: 2 = Yes (Pattern1+2) (128 Elements) 3 = Yes (Pattern 1) (64 Elements) 4 = Yes (Pattern 2) (64 Elements) |
Number of pads & patterns set Elements per pad 'Element' = pair of on/off events that create patterns '128' is shared between Elements, Pads and Patterns 128/Pads/Patterns = Elements per pad, per pattern Element on/off times must be 0 if not needed Set all to 0 then set the ones you want to use (using ON and OFF time options below) (eg: 5,1,1,4 = Ch4) (eg: 5,1,2,5,3 = 2 Patterns, Momentary, Pattern1 0) (128/2/7 = 9 elements per pad) (eg: 5,1,1,4,3 = Ch4, 3 Pads) (eg: 5,1,2,6,2 = 2 Patterns, Latching, all 0) (128/2/3 = 21 elements per pad) |
5 |
1-14 = P1-P14 15-16 = F1-F2 |
3 = Enable pad [SEQ-0C] |
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Enable pads 2 patterns can use same or different pads (eg: 5,5,3 = P5 enabled) (eg: 5,9,3 = P9 enabled)... |
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ON/OFF TIMES |
Set Element/Pad/Pattern mix before ON/OFF times Prog4 is needed to define patterns Examples |
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5 |
1-14 = P1-P14 15-16 = F1-F2 |
4 = Pattern 1 ON time 5 = Pattern 1 OFF time 6 = Pattern 2 ON time 7 = Pattern 2 OFF time |
1-128 Element |
ON/OFF time: 1-255 (*22ms) 0 = No action |
Defines when each output is made ON/OFF Each element has start and end time Unused elements must be '0' to ignore them The highest ON or OFF value ends the sequence Sequence starts at 1 and ends at 255 or earlier Max duration of a sequence is 5.6s (255*22ms) |
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Menu 6 Infrared, |
Pad number: | Output type: | Channel | Position | |
6 | 0 = IR2 address |
High digit: 0-6 = Tens (x10) (0-flash = 0) |
Low digit: 0-9 = Ones (x1) (0-flash = 0) |
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6 |
1-14 = P1-P14 15-16 = F1-F2 |
IR type [IR] 1 = IR1 Manual 2 = IR2 Static Addr 3 = IR3 Dynamic Addr 4 = IR4 Voltage 5 = IR4 + IR1 6 = IR4 + IR1 + IR2 7 = IR4 + IR1 + IR3 |
IR1 (Trigger channel) IR3 (Address channel) 1-18 = Channel |
IR1 (Trigger position) 1 = 'low' on 2 = 'high' on |
IR1 = Manual triggering IR2 = Continuous static address IR3 = Continuous dynamic address IR4 = Continuous battery voltage |
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Menu 7 Other |
Item: | Options: | |||
7 |
1 = LED2 [LED2] |
1 * LED2 Disabled 2 = LED2 Enabled 3 = LED2 (not cruise control) 4 = LED2 Always on |
1-14 = P1-P14 15-16 = F1-F2 |
Any pad driving an Led Option 3 = enabled, but not after Tx switched off |
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7 |
2 = LVC [LVC] |
1 = LVC Disabled 2 = LVC Auto 3 = LVC Manual |
Manual threshold (volts): 2-12 = 2-12v |
Manual threshold (+tenths): 0-9 = 0.1-0.9v |
2-flash = LVC enabled, auto threshold 3-flash = LVC enabled, manual threshold |
7 |
3 = Sleep [SLEEP] |
Time before Sleep: 1-6 = 1-6 hours 7 = Never |
Inactivity timeout | ||
7 |
4 = Failsafe / Cruise Control [FAIL] |
Time to stop after signal loss: 1-4 = 1-4s 5 = Sleep time |
Time to kill outputs after signal loss Use 'Sleep time' for 'cruise control' with transmitter switched off |
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7 |
5 = Emergency Stop [STOP] |
1 = Disabled 2 = Ch 'low' stop 3 = Ch 'high' stop |
1-18 = Channel |
Time to stop: 1-6 = 1-6s |
Manual trigger over radio Quicker trigger than failsafe (eg: 7,5,2,3,6 enabled using Ch3 low with 6s decell.) |
7 |
6 = Arming [ARM] |
0 = Disabled 1-4 = Enabled using H1-H4 |
Arming based on 'off' position of one H output (eg: 7,6,1 enabled using H1) |
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7 |
7 = Brake ON time [BR-ON] |
1-6 = 1-6s |
Brake light on after stopping | ||
7 |
8 = Not used |
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7 |
9 = Battery Voltage flashes [BATT-V] |
1 = Disabled 2 = Enabled on Rx led 3 = Enabled on Pad also |
Channel: 0 = Multi-1 control 1-18 = Channel |
Pad: 1-14 = P1-P14 15-16 = F1-F2 |
Flash battery voltage (volts and tenths) On any Pad driving an Led. When Channel is made Low (eg: 7,9,3,5,1 enabled on P1 triggered with Ch5) |
7 |
10 = Led idle state [LED-HILO] |
1 = Normal 2 = Inverted |
Applies to Battery Voltage, LED2, Latch-2, Brake, Reverse, Indicators, Directional Lights Normal = OFF is Low (0v) Inverted = OFF is High (3v) (from v611-5) |
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Menu 8 Selecta |
Option: | ||||
8 |
1 = Enable [SELECTA] |
Selecta Mode [S-OPTION] 1 = Disabled 2 = Selecta 3 = Selecta+TxChange |
1-18 = Channel (normally Ch2) |
Time between Rx changes [S-DELAY] 1 = Instant 2 = 0.5s 3 * 1s 4 = 1.5s 5 = 2s |
Mode 2: Selecta only: - Same Tx for all switch positions Mode 3: Selecta+TxChange: - Same or different Tx for each position |
8 |
2 = Action when deselected [S-STOP-GO] |
1 = stop 2 = continue |
'Stop' forces throttle closed 'Continue' allows throttle open or closed Throttle always closes with Tx change |
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Menu 9 Reset, Bind |
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9 |
1 = H and P outputs |
2 = H1-2 + P1-14 3 = H1-3 + P1-12 4 = H1-4 + P1-10 |
1 = No change 2 = CHANGE (YES) |
'H' outputs are used for motors and actuators 'P' outputs are used for servos and leds 'F' outputs can be used as 'P' outputs H3/H4 need 'ADD1' |
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9 |
2 = Change variant |
Variant: 1 = Rx47-1 2 = Rx47-2 3 = Rx47-3 4 = Rx47-4 5 = Rx47-5 6 = Rx47-6 7 = Rx47-22 |
Board: 1 = Rx only |
1 = No change 2 = CHANGE (YES) |
Change variant |
9 |
3 = Reset (current variant) [RESET] |
1 = No reset 2 = RESET (YES) |
Resets all outputs to factory settings Does not change variant/board/bindings (eg: 9,3,2 = perform reset) |
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Normal Bind |
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9 |
4 = Binding |
1 * Auto 2 = DSM2 Air 3 = DSMX Air 4 = DSM2 Surface [DSMVER] |
1 * Auto Bind 2 = Manual Bind [BIND-0] |
1 * Up to 12Ch 2 = Up to 14Ch 3 = Up to 18Ch (X-Plus) [XPLUS] |
Core settings for binding Manual Bind uses pads P9 and P10 Binding is normally done with a transmitter Binding can be done with Prog4 (below) |
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Prog4 Bind |
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9 |
5 = GUID [BIND-1] |
Profile 0-15 = Tx0-Tx15 |
GUID[0] 0-255 |
GUID[1] 0-255 |
'Profile' starts with current Tx number Tx1-Tx12 match Selecta channel switch positions Tx0 and Tx13 are 'below' and 'above' Selecta positions Tx14 is used for PROG1/2/3/4 programming Tx15 is most recent 'normal bind' with a Tx |
9 |
6 = CRC [BIND-2] |
Profile 0-15 = Tx0-Tx15 |
CRC[0] 0-255 |
CRC[1] 0-255 |
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9 |
7 = CHANNELS [BIND-3] |
Profile 0-15 = Tx0-Tx15 |
Tx Channels 3-18 = Channels |
Resolution 1 * 10bit 2 = 11bit 3 = 12bit |
DSM2 Surface = 3 channels only - (DX3/DX4S=3ch) DSM2/DSMX Air = Never less than 7 channels - (MLP4/DX4e/DX5/DX6/DX7=7ch) |
9 |
8 = PROTOCOL [BIND-4] |
Profile 0-15 = Tx0-Tx15 |
Protocol 1 * DSM2 Air 2 = DSMX Air 3 = DSM2 Surface |
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Menu 10 Many-to-One Mix |
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10 |
1 = Output [MMIX] |
1 = Disabled 2 = Enabled |
1-14 = P1-P14 (Output pad) |
1-18 = Number of inputs |
Only one output should be enabled Output produces a servo pulse |
10 |
2 = Inputs |
1-18 = Input 1-18 (Input number) |
1-18 = Channel number (for this input) |
Number of inputs must be set first (above) Each input can use any channel number All inputs have equal priority/effect |
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10 |
3 = Delay |
0-9 = Overrun duration (0=none, 9=max) |
0-9 = Decay speed (0=immediate, 9=slowest) |
Stretch/hold output when inputs are reduced. Overrun/Decay settings 3s-4s max each |
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Menu 11 F outputs |
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11 |
1 |
1 = PWM frequency |
1 = 16 kHz 2 = 2 kHz 3 = 500 Hz 4 = 120 Hz |
PWM frequency for F1/F2 and H4 |
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11 |
1-2 = F1-F2 |
2 = Simple output |
1-18 = Channel
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1 channel controls 1 output with PWM (variable intensity) Low stick 0%, full stick 100% |
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11 | 1 = 1st Ch |
3 = 2 channel mix |
1-18 = 1st Channel |
1 = 25% mix 2 = 50% mix 3 = 75% mix 4 = 100% mix |
2 channels control F1/F2 as a pair with PWM 1st channel acts as 'low off' throttle 2nd channel acts as 'mid neutral' steering Mix% is how much 2nd influences 1st |
11 | 2 = 2nd Ch |
3 = 2 channel mix |
1-18 = 2nd Channel |
1 = not reversed 2 = reversed |
Part of above 2nd channel makes one output more and the other less 1st Ch must be configured before 2nd Ch |
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11 |
1 = F1+F2 |
4 = Muscle wire / 2-coil actuator / 2 switches |
1-18 = Channel |
1 channel controls 2 outputs with PWM (center off) F1/F2 can be as a pair or separately (eg: pull/pull steering) (eg: actuator/motor with ADD1) |
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Menu 12 Multi-position channels (from v611-3) |
Multi-position channels: Multi-1 channel can control 1-36 outputs/actions Selecta channel can control 2 outputs/actions Approach 1: 12-way switch + 2 trigger buttons Switch positions can trigger direct or be 'menu' Approach 2: 1-12 pushbuttons Each position directly triggers actions Examples |
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12 |
1 = MULTI-1 2 = SELECTA |
1 = Setup [MULTI-0A] |
Channel: 0 = Disabled 1-18 = Channel MULTI-1 default Ch7 SELECTA default Ch2 |
Fumble time: 1 = 0.1s 2 = 0.2s 3 = 0.4s 4 * 0.8s 5 = 1.6s 6 = 3.2s |
Ch0 disables feature without changing other settings Main switch has adjustable debounce time ('fumble time') T1 and T2 buttons have fixed debounce time (0.1s after main switch settles) |
12 |
1 = MULTI-1 2 = SELECTA |
2 = Learn [MULTI-0B] Not available |
1 = Use current switch positions (no change) 2 = Learn switch positions (replace existing) |
'Learn switch positions': Default values are for a 12-way switch Any number of switch positions (1-12) Trigger buttons T1/T2 are not learned Move channel to its lowest position (1) Move up through all positions to memorise them Led flashes show learned position numbers (1-12) Switch Rx off with channel in highest (eg: 12) |
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12 |
1-14 = P1-P14 15-16 = F1-F2 |
3 = Switch only 4 = Switch+T1 5 = Switch+T2 [MULTI-1] |
1-12 = Switch position |
Output (momentary) 1 = Idle low 2 = Idle high Output toggle (latch) 3 = Start low 4 = Start high |
3 = switch directly controls outputs 4 = switch is 'menu' and T1 triggers 5 = switch is 'menu' and T2 triggers Any combination of switching is allowed Outputs are 'on' or 'toggled' when selected (eg: 12,1,3,7,1 = P1, switch executes at pos7, mom) (ie: while Switch is in Pos7, P1 is on) (eg: 12,3,5,8,4 = P3, T2 executes from pos8, toggle) (ie: Switch to Pos8, press T2, state of P3 toggles) |
12 |
1-14 = P1-P14 15-16 = F1-F2 |
4 = T3 5 = T4 [MULTI-2] |
13 |
Output (momentary) 1 = Idle low 2 = Idle high Output toggle (latch) 3 = Start low 4 = Start high |
Selecta channel can control two outputs T3 channel low, T4 channel high |
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Menu 13 Actions (from v611-3) |
Trigger |
Action |
Menu 13 assigns 'actions' to a multi-position channel This allows settings to be changed from the transmitter Actions which change settings are saved automatically Prog4 is needed to program this menu |
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13 |
1-12 = Switch position |
3 = Switch only 4 = Switch+T1 5 = Switch+T2 [MULTI-1] |
0-255 = Action |
0-255 = Option |
Assign actions to Multi-1 channel 1 channel can control 12x3=36 actions Menu 12 defines the channel using 'Multi-1' |
13 |
13 |
4 = T3 5 = T4 [MULTI-2] |
0-255 = Action |
0-255 = Option |
Assign actions to Selecta channel Selecta channel can control two actions T3 channel low, T4 channel high |
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Outputs on/off |
Leds External sound card |
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Use Menu 12 |
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Trigger |
0 = No action 1 = Emergency stop 2 = eSwitch off (Rx62) 3 = Battery volt display* |
0 = No option 0 0 0 |
'0' disables action/no option (eg: 13,12,2,1 = Pos12, Stop) * Battery Volt channel must be set to '0' (Menu 7) and enabled for use |
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10 = Complex flash* |
1-2 = Pattern |
* Complex Flash channel must be set to '0' (Menu 5) (eg: 13,9,3,10,1 = Pos9+T1, Pattern1) (eg: 13,9,4,10,2 = Pos9+T2, Pattern2) |
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Motor control |
50 = Low/Center off toggle* |
1-4 = H output |
*'Low off' assumes Direction switch is available and set correctly (Ch3) (eg: 13,3,2,50,1 = Pos3, H1) |
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51 = Normal/Reverse toggle |
1-4 = H output |
(eg: 13,4,2,51,1 = Pos4, H1) |
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52 = Min power- 53 = Min power+ 54 = Max power- 55 = Max power+ |
1-4 = H output 1-4 = H output 1-4 = H output 1-4 = H output |
Step size of change is 2% Press and release for each change (eg: 13,2,3,52,1 = Pos2+T1, Min-, H1) (eg: 13,2,4,53,1 = Pos2+T2, Min+, H1) |
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56 = Inertia- 57 = Inertia+ |
1-4 = H output 1-4 = H output |
Inertia effect doubles/halves with each step (eg: 13,3,3,52,1 = Pos3+T1, Faster, H1) (eg: 13,3,4,53,1 = Pos3+T2, Slower, H1) |
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58 = %Mix- 59 = %Mix+ |
0 0 |
H1/H2 mix, 25% step size (eg: 13,6,3,52 = Pos6+T1, Less) (eg: 13,6,4,53 = Pos6+T2, More) |
3. PROGRAMMING WITH STANDARD TRANSMITTER:
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Options are organised into menus usually relating to a type of output.
Level 1 and 2 usually select the output number (eg: 2-flash for 'P' then 4-flash for 'P4').
You select a row in the table above and make up to 5 choices, one for each level.
Invoke programming mode:
1. Switch Transmitter on.
2. Ch3 (Elevator) should be normal, not reversed.
3. Hold left/right sticks (Ch2/4) in towards middle of Tx (use rubber band if necessary).
4. Switch Receiver on and wait for the Led to flicker very fast.
5. Center all sticks.
Make choices:
6. The led flashes the setting for the first 'Level' (eg: 1-flash = Motor output 'H').
7. Yes = push the Ch3 (Elevator) stick forward (to top of Tx) to accept this option and advance to next Level.
8. No = pull the Ch3 (Elevator) stick back (to bottom of Tx) to see next option for same Level.
9. Continue through all Levels until Led comes on solid.
Settings are saved automatically at the end so switch off at any time to abort.
Say 'yes' to every item to just see what is currently set.
Changing 'P2' from Ch4 to Ch5. Level 1: 3-flash = P Level 2: 2-flash = P2 Level 3: 1-flash = Servo Level 4: 5-flash = Ch5 |
4. DX3:
1. Use full 'brake' to make receiver enter programming mode on startup.
2. Use 3-position Aux channel to make yes/no choices.