Summary

• Page properties (1 modified, 0 added, 0 removed)

Details

Page properties

Content

...	...	@@ -1,5 +1,5 @@
1	1	(% class="wikigeneratedid" id="HTableofContents" %)
2		-**Page Contents**
	2	+**Table of Contents**
3	3
4	4	{{toc depth="3"/}}
5	5
...	...	@@ -128,8 +128,6 @@
128	128
129	129	= Command List =
130	130
131		-== Regular ==
132		-
133	133	|= #|=Description|= Action|= Query|= Config|=Session|= RC|= Serial|= Units|=(% style="width: 510px;" %) Notes|=(% style="width: 113px;" %)Default Value
134	134	| 1|[[**L**imp>>||anchor="H1.Limp28L29"]]| L| | | | | ✓|none|(% style="width:510px" %) |(% style="text-align:center; width:113px" %)
135	135	| 2|[[**H**alt & **H**old>>||anchor="H2.Halt26Hold28H29"]]| H| | | | | ✓|none|(% style="width:510px" %) |(% style="text-align:center; width:113px" %)
...	...	@@ -148,7 +148,7 @@
148	148	| 9|[[Position in **D**egrees>>||anchor="H9.PositioninDegrees28D29"]]| D| QD / QDT| | | | ✓|tenths of degrees |(% style="width:510px" %) |(% style="text-align:center; width:113px" %)
149	149	| 10|[[**W**heel mode in **D**egrees>>||anchor="H10.WheelModeinDegrees28WD29"]]| WD| QWD| | | | ✓|tenths of degrees per second (ex 248 = 24.8 degrees per second)|(% style="width:510px" %)A.K.A. "Speed mode" or "Continuous rotation"|(% style="text-align:center; width:113px" %)
150	150	| 11|[[**W**heel mode in **R**PM>>||anchor="H11.WheelModeinRPM28WR29"]]| WR| QWR| | | | ✓|revolutions per minute (rpm)|(% style="width:510px" %)A.K.A. "Speed mode" or "Continuous rotation"|(% style="text-align:center; width:113px" %)
151		-| 12|[[Max **S**peed in **D**egrees>>||anchor="H12.MaxSpeedinDegrees28SD29"]]| SD| QSD|CSD|✓| ✓| ✓|degrees per second (°/s)|(% style="width:510px" %)(((
	149	+| 12|[[Max **S**peed in **D**egrees>>||anchor="H12.MaxSpeedinDegrees28SD29"]]| SD| QSD|CSD|✓| ✓| ✓|tenths of degrees per second |(% style="width:510px" %)(((
152	152	QSD: Add modifier "2" for instantaneous speed.
153	153
154	154	SD overwrites SR / CSD overwrites CSR and vice-versa.
...	...	@@ -162,8 +162,8 @@
162	162	| 15|[[**G**yre direction (**G**)>>||anchor="H15.GyreRotationDirection28G29"]]| G| QG| CG|✓| ✓| ✓|none |(% style="width:510px" %)Gyre / rotation direction: 1= CW (clockwise) -1 = CCW (counter-clockwise)|(% style="text-align:center; width:113px" %)1
163	163	| 16|[[**ID** #>>||anchor="H16.IdentificationNumber28ID29"]]| | QID| CID| | | ✓|none (integer from 0 to 250)|(% style="width:510px" %)Note: ID 254 is a "broadcast" which all servos respond to. |(% style="text-align:center; width:113px" %)0
164	164	| 17|[[**B**aud rate>>||anchor="H17.BaudRate"]]| | QB| CB| | | ✓|none (integer)|(% style="width:510px" %) |(% style="text-align:center; width:113px" %)9600
165		-| 18|//{coming soon}//| | | | | | | |(% style="width:510px" %) |(% style="text-align:center; width:113px" %)(((
166		-
	163	+| 18|[[**F**irst Position (**P**ulse)>>||anchor="H18.FirstPosition28Pulse2928FP29"]]| | QFP|CFP |X| ✓| ✓|none |(% style="width:510px" %)CFP overwrites CFD and vice-versa|(% style="text-align:center; width:113px" %)(((
	164	+Limp
167	167	)))
168	168	| 19|[[**F**irst Position (**D**eg)>>||anchor="H19.FirstPosition28Degrees2928FD29"]]| | QFD|CFD|X| ✓| ✓|none |(% style="width:510px" %)CFD overwrites CFP and vice-versa|(% style="text-align:center; width:113px" %)Limp
169	169	| 20|[[**M**odel **S**tring>>||anchor="H20.QueryModelString28QMS29"]]| | QMS| | | | |none (string)|(% style="width:510px" %) Returns the type of servo (ST, HS, HT)|(% style="text-align:center; width:113px" %)
...	...	@@ -182,17 +182,17 @@
182	182
183	183	== Advanced ==
184	184
185		-|= #|=Description|= Action|= Query|= Config|=Session|= RC|= Serial|= Units|=(% style="width: 510px;" %) Notes
186		-| A1|[[**A**ngular **S**tiffness>>||anchor="HA1.AngularStiffness28AS29"]]|AS|QAS|CAS|✓| ✓| ✓|none (integer -4 to +4)|(% style="width:510px" %)Suggested values are between 0 to +4
187		-| A2|[[**A**ngular **H**olding Stiffness>>||anchor="HA2.AngularHoldingStiffness28AH29"]]|AH|QAH|CAH|✓| | ✓|none (integer -10 to +10)|(% style="width:510px" %)Effect is different between serial and RC
188		-| A3|[[**A**ngular **A**cceleration>>||anchor="HA3:AngularAcceleration28AA29"]]|AA|QAA|CAA|✓| | ✓|degrees per second squared|(% style="width:510px" %)Increments of 10 degrees per second squared
189		-| A4|[[**A**ngular **D**eceleration>>||anchor="HA4:AngularDeceleration28AD29"]]|AD|QAD|CAD|✓| | ✓|degrees per second squared|(% style="width:510px" %)Increments of 10 degrees per second squared
190		-| A5|[[**E**nable **M**otion Control>>||anchor="HA5:MotionControl28EM29"]]|EM|QEM| | | | ✓|none|(% style="width:510px" %)EM0 to disable motion control, EM1 to enable
	183	+|= #|=Description|= Action|= Query|= Config|=Session|= RC|= Serial|= Units|=(% style="width: 510px;" %) Notes|=(% style="width: 113px;" %)Default Value
	184	+| A1|[[**A**ngular **S**tiffness>>||anchor="HA1.AngularStiffness28AS29"]]| AS|QAS|CAS|✓| ✓| ✓|none (integer -4 to +4)|(% style="width:510px" %)Suggested values are between 0 to +4|(% style="text-align:center; width:113px" %)0
	185	+| A2|[[**A**ngular **H**olding Stiffness>>||anchor="HA2.AngularHoldingStiffness28AH29"]]|AH|QAH|CAH|✓| | ✓|none (integer -10 to +10)|(% style="width:510px" %) |(% style="text-align:center; width:113px" %)1
	186	+| A3|[[**A**ngular **A**cceleration>>||anchor="HA3:AngularAcceleration28AA29"]]|AA|QAA|CAA|✓| | ✓|degrees per second squared|(% style="width:510px" %)Increments of 10 degrees per second squared|(% style="text-align:center; width:113px" %)
	187	+| A4|[[**A**ngular **D**eceleration>>||anchor="HA4:AngularDeceleration28AD29"]]|AD|QAD|CAD|✓| | ✓|degrees per second squared|(% style="width:510px" %)Increments of 10 degrees per second squared|(% style="text-align:center; width:113px" %)
	188	+| A5|[[**E**nable **M**otion Control>>||anchor="HA5:MotionControl28EM29"]]|EM|QEM| | | | ✓|none|(% style="width:510px" %)EM0 to disable motion control, EM1 to enable|(% style="text-align:center; width:113px" %)
191	191	| A6|[[**C**onfigure **L**ED **B**linking>>||anchor="HA6.ConfigureLEDBlinking28CLB29"]]| | | CLB| | ✓| |none (integer from 0 to 63)|(% style="width:510px" %)(((
192	192	0=No blinking, 63=Always blink;
193	193
194	194	Blink while: 1=Limp; 2=Holding 4=Accel; 8=Decel; 16=Free 32=Travel;
195		-)))
	193	+)))|(% style="text-align:center; width:113px" %)
196	196
197	197	== Details ==
198	198
...	...	@@ -280,7 +280,7 @@
280	280
281	281	Example: #5P2334<cr>
282	282
283		-The position in PWM pulses was retained in order to be backward compatible with the SSC-32 / 32U protocol. This relates the desired angle with an RC standard PWM pulse and is further explained in the SSC-32 and SSC-32U manuals found on Lynxmotion.com. Without any modifications to configuration considered, and a ±90.0 degrees standard range where 1500 microseconds is centered, a pulse of 2334 would set the servo to 165.1 degrees. Valid values for P are [500, 2500]. Values outside this range are corrected / restricted to end points.
	281	+The position in PWM pulses was retained in order to be backward compatible with the SSC-32 / 32U protocol. This relates the desired angle with an RC standard PWM pulse and is further explained in the SSC-32 and SSC-32U manuals found on Lynxmotion.com. Without any modifications to configuration considered, and a ±90.0 degrees standard range where 1500 microseconds is centered, a pulse of 2334 would set the servo to 165.1 degrees. Valid values for P are [500, 2500]. Values outside this range are corrected to end points.
284	284
285	285	Query Position in Pulse (**QP**)
286	286
...	...	@@ -456,10 +456,22 @@
456	456
457	457	Sending this command will change the baud rate associated with servo ID 5 to 9600 bits per second.
458	458
459		-====== __18. {//Coming soon//}__ ======
	457	+====== __18. First Position (Pulse) (**FP**)__ ======
460	460
461		-Command coming soon....
	459	+In certain cases, a user might want to have the servo move to a specific angle upon power up; we refer to this as "first position" (a.k.a. "initial position"). The factory default has no first position value stored in EEPROM and therefore upon power up, the servo remains limp until a position (or hold command) is assigned. FP and FD are different in that FP is used for RC mode only, whereas FD is used for smart mode only.
462	462
	461	+Query First Position in Pulses (**QFP**)
	462	+
	463	+Ex: #5QFP<cr> might return *5QFP1550<cr>
	464	+
	465	+The reply above indicates that servo with ID 5 has a first position pulse of 1550 microseconds. If no first position has been set, servo will respond with DIS ("disabled").
	466	+
	467	+Configure First Position in Pulses (**CFP**)
	468	+
	469	+Ex: #5CP1550<cr>
	470	+
	471	+This configuration command means the servo, when set to RC mode, will immediately move to an angle equivalent to having received an RC pulse of 1550 microseconds upon power up. Sending a CFP command without a number (Ex. #5CFP<cr>) results in the servo remaining limp upon power up (i.e. disabled).
	472	+
463	463	====== __19. First Position (Degrees) (**FD**)__ ======
464	464
465	465	In certain cases, a user might want to have the servo move to a specific angle upon power up; we refer to this as "first position" (a.k.a. "initial position"). The factory default has no first position value stored in EEPROM and therefore upon power up, the servo remains limp until a position (or hold command) is assigned. FP and FD are different in that FP is used for RC mode only, whereas FD is used for smart mode only.
...	...	@@ -480,52 +480,37 @@
480	480
481	481	Ex: #5QMS<cr> might return *5QMSLSS-HS1cr>
482	482
483		-This reply means the servo model is LSS-HS1, meaning a high speed servo, first revision.
	493	+This reply means the servo model is LSS-HS1, meaning a high speed servo, first revision.
484	484
485	485	====== __21. Query Serial Number (**QN**)__ ======
486	486
487		-Ex: #5QN<cr> might return *5QN12345678<cr>
	497	+Ex: #5QN<cr> might return *5QN~_~_<cr>
488	488
489		-The number in the response (12345678) would be the servo's serial number which is set and should not be changed by the user.
	499	+The number in the response is the servo's serial number which is set and cannot be changed.
490	490
491	491	====== __22. Query Firmware (**QF**)__ ======
492	492
493		-Ex: #5QF<cr> might return *5QF411<cr>
	503	+Ex: #5QF<cr> might return *5QF11<cr>
494	494
495		-The number in the reply represents the firmware version, in this example being 411.
	505	+The integer in the reply represents the firmware version with one decimal, in this example being 1.1
496	496
497	497	====== __23. Query Status (**Q**)__ ======
498	498
499		-The status query described what the servo is currently doing. The query returns an integer which must be looked up in the table below. Use the CLB advanced command to have the LED blink for certain statuses.
500		-
501	501	Ex: #5Q<cr> might return *5Q6<cr>, which indicates the motor is holding a position.
502	502
503		-|***Value returned (Q)**|**Status**|**Detailed description**
504		-|ex: *5Q0<cr>|0: Unknown|LSS is unsure / unknown state
505		-|ex: *5Q1<cr>|1: Limp|Motor driving circuit is not powered and horn can be moved freely
506		-|ex: *5Q2<cr>|2: Free moving|Motor driving circuit is not powered and horn can be moved freely
507		-|ex: *5Q3<cr>|3: Accelerating|Increasing speed from rest (or previous speed) towards travel speed
508		-|ex: *5Q4<cr>|4: Traveling|Moving at a stable speed
509		-|ex: *5Q5<cr>|5: Decelerating|Decreasing from travel speed towards final position.
510		-|ex: *5Q6<cr>|6: Holding|Keeping current position
511		-|ex: *5Q7<cr>|7: Outside limits|{More details coming soon}
512		-|ex: *5Q8<cr>|8: Stuck|Motor cannot perform request movement at current speed setting
513		-|ex: *5Q9<cr>|9: Blocked|Similar to stuck, but the motor is at maximum duty and still cannot move (i.e.: stalled)
514		-|ex: *5Q10<cr>|10: Safe Mode|(((
515		-A safety limit has been exceeded (temperature, peak current or extended high current draw).
	511	+|*Value returned|**Status**|**Detailed description**
	512	+|ex: *5Q0<cr>|Unknown|LSS is unsure
	513	+|ex: *5Q1<cr>|Limp|Motor driving circuit is not powered and horn can be moved freely
	514	+|ex: *5Q2<cr>|Free moving|Motor driving circuit is not powered and horn can be moved freely
	515	+|ex: *5Q3<cr>|Accelerating|Increasing speed from rest (or previous speeD) towards travel speed
	516	+|ex: *5Q4<cr>|Traveling|Moving at a stable speed
	517	+|ex: *5Q5<cr>|Decelerating|Decreasing from travel speed towards final position.
	518	+|ex: *5Q6<cr>|Holding|Keeping current position
	519	+|ex: *5Q7<cr>|Stepping|Special low speed mode to maintain torque
	520	+|ex: *5Q8<cr>|Outside limits|{More details coming soon}
	521	+|ex: *5Q9<cr>|Stuck|Motor cannot perform request movement at current speed setting
	522	+|ex: *5Q10<cr>|Blocked|Similar to stuck, but the motor is at maximum duty and still cannot move (i.e.: stalled)
516	516
517		-Send a Q1 command to know which limit has been reached (described below).
518		-)))
519		-
520		-(% class="wikigeneratedid" %)
521		-If a safety limit has been reached and exceeded, the LED will flash red and the servo will stop providing torque (no longer react to commands which cause the motor to rotate). In order to determine which limit has been reached, send a Q1 command. The servo must be RESET in order to return to normal operation, though if a limit is still detected (for example the servo is still too hot), it will revert back to Safe Mode.
522		-
523		-|***Value returned (Q1)**|**Status**|**Detailed description**
524		-|ex: *5Q0<cr>|No limits have been passed|Nothing is wrong
525		-|ex: *5Q1<cr>|Current limit has been passed|Something cause the current to either spike, or remain too high for too long
526		-|ex: *5Q2<cr>|Input voltage detected is below or above acceptable range|Check the voltage of your batteries or power source
527		-|ex: *5Q3<cr>|Temperature limit has been reached|The servo is too hot to continue operating safely.
528		-
529	529	====== __24. Query Voltage (**QV**)__ ======
530	530
531	531	Ex: #5QV<cr> might return *5QV11200<cr>
...	...	@@ -549,16 +549,15 @@
549	549	This command puts the servo into RC mode (position or continuous), where it will only respond to RC pulses. Note that because this is the case, the servo will no longer accept serial commands. The servo can be placed back into smart mode by using the button menu.
550	550
551	551	|**Command sent**|**Note**
	547	+|ex: #5CRC<cr>|Stay in smart mode.
552	552	|ex: #5CRC1<cr>|Change to RC position mode.
553	553	|ex: #5CRC2<cr>|Change to RC continuous (wheel) mode.
554		-|ex: #5CRC*<cr>|Where * is any number or value other than 1 or 2 (or no value): stay in smart mode.
	550	+|ex: #5CRC*<cr>|Where * is any number or value. Stay in smart mode.
555	555
556		-EX: #5CRC2<cr>
	552	+EX: #5CRC<cr>
557	557
558		-This command would place the servo in RC wheel mode after a RESET or power cycle. Note that after a RESET or power cycle, the servo will be in RC mode and will not reply to serial commands. Using the command #5CRC<cr> or #5CRC3<cr> which requests that the servo remain in serial mode still requires a RESET command.
	554	+====== ======
559	559
560		-Important note:** **To revert from RC mode back to serial mode, the [[LSS - Button Menu>>doc:Lynxmotion Smart Servo (LSS).LSS - Button Menu.WebHome]] is required. Should the button be inaccessible (or broken) when the servo is in RC mode and the user needs to change to serial mode, a 5V constant HIGH needs to be sent to the servo's Rx pin (RC PWM pin), ensuring a common GND and wait for 30 seconds. Normal RC PWM pulses should not exceed 2500 milliseconds. After 30 seconds, the servo will interpret this as a desired mode change and change to serial mode. This has been implemented as a fail safe.
561		-
562	562	====== __28. **RESET**__ ======
563	563
564	564	Ex: #5RESET<cr> or #5RS<cr>
...	...	@@ -569,11 +569,11 @@
569	569
570	570	Ex: #5DEFAULT<cr>
571	571
572		-This command sets in motion the reset of all values to the default values included with the version of the firmware installed on that servo. The servo then waits for the CONFIRM command. Any other command received will cause the servo to exit the DEFAULT function.
	566	+This command sets in motion the reset all values to the default values included with the version of the firmware installed on that servo. The servo then waits for the CONFIRM command. Any other command received will cause the servo to exit the DEFAULT function.
573	573
574	574	EX: #5DEFAULT<cr> followed by #5CONFIRM<cr>
575	575
576		-Since it it not common to have to restore all configurations, a confirmation command is needed after a firmware command is sent. Should any command other than CONFIRM be received by the servo after the firmware command has been received, it will exit the command.
	570	+Since it it not common to have to restore all configurations, a confirmation command is needed after a firmware command is sent. Should any command other than CONFIRM be received by the servo after the firmware command has been received, it will leave the firmware action.
577	577
578	578	Note that after the CONFIRM command is sent, the servo will automatically perform a RESET.
579	579
...	...	@@ -589,13 +589,9 @@
589	589
590	590	Note that after the CONFIRM command is sent, the servo will automatically perform a RESET.
591	591
592		-= Advanced =
593		-
594		-The motion controller used in serial mode is not the same as the motion controller use in RC mode. RC mode is intended to add functionality to what would be considered "normal" RC behavior based on PWM input.
595		-
596	596	====== __A1. Angular Stiffness (**AS**)__ ======
597	597
598		-The servo's rigidity / angular stiffness can be thought of as (though not identical to) a damped spring in which the value affects the stiffness and embodies how much, and how quickly the servo tried keep the requested position against changes. There are no units.
	588	+The servo's rigidity / angular stiffness can be thought of as (though not identical to) a damped spring in which the value affects the stiffness and embodies how much, and how quickly the servo tried keep the requested position against changes.
599	599
600	600	A positive value of "angular stiffness":
601	601
...	...	@@ -607,7 +607,7 @@
607	607	* Causes a slower acceleration to the travel speed, and a slower deceleration
608	608	* Allows the target position to deviate more from its position before additional torque is applied to bring it back
609	609
610		-The default value for stiffness depending on the firmware may be 0 or 1. Greater values produce increasingly erratic behavior and the effect becomes extreme below -4 and above +4. Maximum values are -10 to +10.
	600	+The default value is zero and the effect becomes extreme by -4, +4. There are no units, only integers between -4 to 4. Greater values produce increasingly erratic behavior.
611	611
612	612	Ex: #5AS-2<cr>
613	613
...	...	@@ -623,7 +623,7 @@
623	623
624	624	====== __A2. Angular Holding Stiffness (**AH**)__ ======
625	625
626		-The angular holding stiffness determines the servo's ability to hold a desired position under load. The default value for stiffness depending on the firmware may be 0 or 1. Greater values produce increasingly erratic behavior and the effect becomes extreme below -4 and above +4. Maximum values are -10 to +10. Note that when  considering altering a stiffness value, the end effect depends on the mode being tested.
	616	+The angular holding stiffness determines the servo's ability to hold a desired position under load. Values can be from -10 to 10, with the default being 0. Note that negative values mean the final position can be easily deflected.
627	627
628	628	Ex: #5AH3<cr>
629	629
...	...	@@ -639,36 +639,16 @@
639	639
640	640	Ex: #5CAH2<cr>
641	641
642		-This writes the angular holding stiffness of servo #5 to 2 to EEPROM. Note that when  considering altering a stiffness value, the end effect depends on the mode being tested.
	632	+This writes the angular holding stiffness of servo #5 to 2 to EEPROM
643	643
644	644	====== __A3: Angular Acceleration (**AA**)__ ======
645	645
646		-The default value for angular acceleration is 100, which is the same as the maximum deceleration. Accepts values of between 1 and 100. Increments of 10 degrees per second squared.
	636	+{More details to come}
647	647
648		-Ex: #5AA30<cr>
649		-
650		-Query Angular Acceleration (**QAD**)
651		-
652		-Ex: #5QA<cr> might return *5QA30<cr>
653		-
654		-Configure Angular Acceleration (**CAD**)
655		-
656		-Ex: #5CA30<cr>
657		-
658	658	====== __A4: Angular Deceleration (**AD**)__ ======
659	659
660		-The default value for angular deceleration is 100, which is the same as the maximum acceleration. Values between 1 and 15 have the greatest impact.
	640	+{More details to come}
661	661
662		-Ex: #5AD8<cr>
663		-
664		-Query Angular Deceleration (**QAD**)
665		-
666		-Ex: #5QD<cr> might return *5QD8<cr>
667		-
668		-Configure Angular Deceleration (**CAD**)
669		-
670		-Ex: #5CD8<cr>
671		-
672	672	====== __A5: Motion Control (**EM**)__ ======
673	673
674	674	{More details to come}
...	...	@@ -675,26 +675,14 @@
675	675
676	676	====== __A6. Configure LED Blinking (**CLB**)__ ======
677	677
678		-This command allows you to control when the RGB LED will blink the user set color (see [[16. RGB LED>>||anchor="H16.RGBLED28LED29"]] for details). This is very useful when visually seeing what the servo is doing. You can turn on or off blinking for various LSS status. The command requires that the servo be RESET. Here is the list and their associated value:
	648	+This command allows you to control when the RGB LED will blink the user set color (see [[16. RGB LED>>||anchor="H16.RGBLED28LED29"]] for details).
	649	+You can turn on or off blinking for various LSS status. Here is the list and their associated value: 0=No blinking, ; 63=Always blink; Blink while: 1=Limp; 2=Holding 4=Accel; 8=Decel; 16=Free 32=Travel;
679	679
680		-(% style="width:195px" %)
681		-|(% style="width:134px" %)**Blink While:**|(% style="width:58px" %)**#**
682		-|(% style="width:134px" %)No blinking|(% style="width:58px" %)0
683		-|(% style="width:134px" %)Limp|(% style="width:58px" %)1
684		-|(% style="width:134px" %)Holding|(% style="width:58px" %)2
685		-|(% style="width:134px" %)Accelerating|(% style="width:58px" %)4
686		-|(% style="width:134px" %)Decelerating|(% style="width:58px" %)8
687		-|(% style="width:134px" %)Free|(% style="width:58px" %)16
688		-|(% style="width:134px" %)Travelling|(% style="width:58px" %)32
689		-|(% style="width:134px" %)Always blink|(% style="width:58px" %)63
690		-
691	691	To set blinking, use CLB with the value of your choosing. To activate blinking in multiple status, simply add together the values of the corresponding status. See examples below:
692	692
693	693	Ex: #5CLB0<cr> to turn off all blinking (LED always solid)
694		-Ex: #5CLB1<cr> only blink when limp (1)
695		-Ex: #5CLB2<cr> only blink when holding (2)
696		-Ex: #5CLB12<cr> only blink when accel or decel (accel 4 + decel 8 = 12)
697		-Ex: #5CLB48<cr> only blink when free or travel (free 16 + travel 32 = 48)
698		-Ex: #5CLB63<cr> blink in all status (1 + 2 + 4 + 8 + 16 + 32)
699		-
700		-RESETTING the servo is needed.
	654	+Ex: #5CLB1<cr> only blink when limp
	655	+Ex: #5CLB2<cr> only blink when holding
	656	+Ex: #5CLB12<cr> only blink when accel or decel
	657	+Ex: #5CLB48<cr> only blink when free or travel
	658	+Ex: #5CLB63<cr> blink in all status