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48	48
49	49	== Configuration Commands ==
50	50
51		-Configuration commands affect the servo's current session* but unlike action commands, configuration commands are written to EEPROM and are retained even if the servo loses power (therefore NOT session specific). Not all action commands have a corresponding configuration and vice versa. Certain configurations are retained for when the servo is used in RC model. More information can be found on the [[LSS - RC PWM page>>doc:Lynxmotion Smart Servos (LSS).LSS - RC PWM.WebHome]].
	51	+Configuration commands affect the servo's current session* but unlike action commands, configuration commands are written to EEPROM and are retained even if the servo loses power (therefore NOT session specific). Not all action commands have a corresponding configuration and vice versa. Certain configurations are retained for when the servo is used in RC model. More information can be found on the [[LSS - RC PWM page>>doc:LSS - RC PWM.WebHome]].
52	52
53	53	1. Start with a number sign # (U+0023)
54	54	1. Servo ID number as an integer
...	...	@@ -118,17 +118,17 @@
118	118	| 6|**O**rigin Offset| O| QO| CO| ✓| ✓| tenths of degrees (ex 325 = 32.5 degrees; 91 = 9.1 degrees)|
119	119	| 7|**A**ngular **R**ange| AR| QAR| CAR| ✓| ✓| tenths of degrees (ex 325 = 32.5 degrees; 91 = 9.1 degrees)|
120	120	| 8|Position in **P**ulse| P| QP| | | ✓| microseconds|(((
121		-See details below.
	121	+See details below
122	122	)))
123	123	| 9|Position in **D**egrees| D| QD| | | ✓| tenths of degrees (ex 325 = 32.5 degrees; 91 = 9.1 degrees)|
124	124	| 10|**W**heel mode in **D**egrees| WD| QWD| | | ✓| tenths of degrees per second (ex 248 = 24.8 degrees per second)|
125	125	| 11|**W**heel mode in **R**PM| WR| QWR| | | ✓| rpm|
126		-| 12|**S**peed in **D**egrees| SD| QSD| CSD| ✓| ✓| tenths of degrees per second (ex 248 = 24.8 degrees per second)|
127		-| 13|**S**peed in **R**PM| SR| QSR| CSR| ✓| ✓| rpm|
128		-| 14|**R**igidity| R| QR| CR| ✓| ✓|none|
	126	+| 12|Max **S**peed in **D**egrees| SD| QSD| CSD| ✓| ✓| tenths of degrees per second (ex 248 = 24.8 degrees per second)|Add modifier "2" for instantaneous speed
	127	+| 13|Max **S**peed in **R**PM| SR| QSR| CSR| ✓| ✓| rpm|Add modifier "2" for instantaneous speed
	128	+| 14|**A**ngular **S**tiffness| AS| QAS| CAS| ✓| ✓|none|
129	129	| 15|//N/A (removed)//| | | | | | |
130	130	| 16|**LED** Color| LED| QLED| CLED| ✓| ✓| none (integer from 1 to 8)|0=OFF 1=RED 2=GREEN 3= BLUE 4=YELLOW 5=CYAN 6= 7=MAGENTA, 8=WHITE
131		-| 17|**ID** #| ID| QID| CID| | ✓| none (integer from 0 to 250)|Note: ID 254 is a "broadcast" which all servos respond to.
	131	+| 17|**ID** #| ID| QID| CID| | ✓| none (integer from 0 to 250)|Note: ID 254 is a "broadcast" which all servos respond to
132	132	| 18|**B**aud rate| B| QB| CB| | ✓| none (integer)|
133	133	| 19|**G**yre direction (**G**)| G| QG| CG| ✓| ✓| none | Gyre / rotation direction where 1= CW (clockwise) -1 = CCW (counter-clockwise)
134	134	| 20|**F**irst Position (**P**ulse)| | QFP|CFP | ✓| ✓| none |
...	...	@@ -137,7 +137,7 @@
137	137	| 23|**M**odel| | QM| | | | none (integer)|
138	138	| 24|Serial **N**umber| | QN| | | | none (integer)|
139	139	| 25|**F**irmware version| | QF| | | | none (integer)|
140		-| 26|**Q**uery (general status)| | Q| | | ✓| none (integer from 1 to 8)|
	140	+| 26|**Q**uery (general status)| | Q| | | ✓| none (integer from 1 to 8)| See command description for details
141	141	| 27|**V**oltage| | QV| | | ✓| tenths of volt (ex 113 = 11.3V; 92 = 9.2V)|
142	142	| 28|**T**emperature| | QT| | | ✓| degrees Celsius|
143	143	| 29|**C**urrent| | QC| | | ✓| tenths of Amps (ex 2 = 0.2A)|
...	...	@@ -232,10 +232,10 @@
232	232
233	233	Query Position in Pulse (**QP**)
234	234
235		-Example: #5QP<cr> might return *5QP
	235	+Example: #5QP<cr> might return *5QP2334
236	236
237	237	This command queries the current angular position in PWM "units". The user must take into consideration that the response includes any angular range and origin configurations in order to determine the actual angle.
238		-Valid values for QP are {-500, [500, 2500], -2500}. Values outside the [500, 2500] range are given a negative corresponding end point value to indicate they are out of bounds.
	238	+Valid values for QP are {-500, [500, 2500], -2500}. Values outside the [500, 2500] range are given a negative corresponding end point value to indicate they are out of bounds (note that if the servo is physically located at one of the endpoints, it may return a negative number if it is a fraction of a degree beyond the position).
239	239
240	240	__9. Position in Degrees (**D**)__
241	241
...	...	@@ -247,8 +247,10 @@
247	247
248	248	Query Position in Degrees (**QD**)
249	249
250		-Example: #5QD<cr> might return *5QD0<cr>
	250	+Example: #5QD<cr> might return *5QD132<cr>
251	251
	252	+This means the servo is located at 13.2 degrees.
	253	+
252	252	__10. Wheel Mode in Degrees (**WD**)__
253	253
254	254	Ex: #5WD900<cr>
...	...	@@ -283,13 +283,14 @@
283	283
284	284	Ex: #5QSD<cr> might return *5QSD1800<cr>
285	285
286		-By default QSD will return the current session value, which is set to the value of CSD as reset/power cycle and changed whenever a SD command is processed.
	288	+By default QSD will return the current session value, which is set to the value of CSD as reset/power cycle and changed whenever a SD/SR command is processed.
287	287	If #5QSD1<cr> is sent, the configured maximum speed (CSD value) will be returned instead. You can also query the current speed using "2" and the current target travel speed using "3". See the table below for an example:
288	288
289		-no param = session max velocity
290		-1 = configured max velocity
291		-2 = current velocity
292		-3 = target/travel velocity (temporary until next motion command)
	291	+|**Command sent**|**Returned value (1/10 °)**
	292	+|ex: #5QSD<cr>|Session value for maximum speed (set by latest SD/SR command)
	293	+|ex: #5QSD1<cr>|Configured maximum speed  (set by CSD/CSR)
	294	+|ex: #5QSD2<cr>|Instantaneous speed (same as QWD)
	295	+|ex: #5QSD3<cr>|Target travel speed
293	293
294	294	Configure Speed in Degrees (**CSD**)
295	295
...	...	@@ -307,19 +307,26 @@
307	307
308	308	Ex: #5QSR<cr> might return *5QSR45<cr>
309	309
310		-Note that the QSD query will return the current servo speed. Querying the last maximum speed value set using SR or CSR is not possible.
	313	+By default QSR will return the current session value, which is set to the value of CSR as reset/power cycle and changed whenever a SD/SR command is processed.
	314	+If #5QSR1<cr> is sent, the configured maximum speed (CSR value) will be returned instead. You can also query the current speed using "2" and the current target travel speed using "3". See the table below for an example:
311	311
312		-Configure Speed in Degrees (**CSR**)
	316	+|**Command sent**|**Returned value (1/10 °)**
	317	+|ex: #5QSR<cr>|Session value for maximum speed (set by latest SD/SR command)
	318	+|ex: #5QSR1<cr>|Configured maximum speed  (set by CSD/CSR)
	319	+|ex: #5QSR2<cr>|Instantaneous speed (same as QWR)
	320	+|ex: #5QSR3<cr>|Target travel speed
313	313
	322	+Configure Speed in RPM (**CSR**)
	323	+
314	314	Ex: #5CSR45<cr>
315	315
316		-Using the CSD command sets the servo's maximum speed which is saved in EEPROM. In the example above, the servo's maximum speed will be set to 45rpm. When the servo is powered on (or after a reset), the CSD value is used. Note that CSD and CSR are effectively the same, but allow the user to specify the speed in either unit. The last command (either CSR or CSD) is what the servo uses for that session.
	326	+Using the CSR command sets the servo's maximum speed which is saved in EEPROM. In the example above, the servo's maximum speed will be set to 45rpm. When the servo is powered on (or after a reset), the CSR value is used. Note that CSD and CSR are effectively the same, but allow the user to specify the speed in either unit. The last command (either CSR or CSD) is what the servo uses for that session.
317	317
318		-__14. Rigidity (R)__
	328	+__14. Angular Stiffness (AS)__
319	319
320		-The servo's rigidity can be thought of as (though not identical to) a damped spring in which the rigidity value affects the stiffness and embodies how much, and how quickly the servo tried keep the requested position against changes.
	330	+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.
321	321
322		-A positive value of "rigidity":
	332	+A positive value of "angular stiffness":
323	323
324	324	* The more torque will be applied to try to keep the desired position against external input / changes
325	325	* The faster the motor will reach its intended travel speed and the motor will decelerate faster and nearer to its target position
...	...	@@ -331,17 +331,17 @@
331	331
332	332	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.
333	333
334		-Ex: #5R-2<cr>
	344	+Ex: #5AS-2<cr>
335	335
336		-This reduces the rigidity to -2 for that session, allowing the servo to deviate more around the desired position. This can be beneficial in many situations such as impacts (legged robots) where more of a "spring" effect is desired. Upon reset, the servo will use the value stored in memory, based on the last configuration command.
	346	+This reduces the angular stiffness to -2 for that session, allowing the servo to deviate more around the desired position. This can be beneficial in many situations such as impacts (legged robots) where more of a "spring" effect is desired. Upon reset, the servo will use the value stored in memory, based on the last configuration command.
337	337
338		-Ex: #5QR<cr>
	348	+Ex: #5QAS<cr>
339	339
340	340	Queries the value being used.
341	341
342		-Ex: #5CR<cr>
	352	+Ex: #5CAS<cr>
343	343
344		-Writes the desired rigidity value to memory.
	354	+Writes the desired angular stiffness value to memory.
345	345
346	346	__15. N/A (removed)__
347	347
...	...	@@ -363,7 +363,7 @@
363	363
364	364	Configure LED Color (**CLED**)
365	365
366		-Configuring the LED color via the CLED command sets the startup color of the servo after a reset or power cycle.
	376	+Configuring the LED color via the CLED command sets the startup color of the servo after a reset or power cycle. Note that it also changes the session's LED color immediately as well.
367	367
368	368	__17. Identification Number__
369	369
...	...	@@ -371,13 +371,13 @@
371	371
372	372	Query Identification (**QID**)
373	373
374		-EX: #QID<cr> might return *QID5<cr>
	384	+EX: #254QID<cr> might return *QID5<cr>
375	375
376		-When using the query ID command, it is best to only have one servo connected and thus receive only one reply.
	386	+When using the query ID command, it is best to only have one servo connected and thus receive only one reply using the broadcast command (ID 254). Alternatively, pushing the button upon startup and temporarily setting the servo ID to 255 will still result in the servo responding with its "real" ID.
377	377
378	378	Configure ID (**CID**)
379	379
380		-Ex: #CID5<cr>
	390	+Ex: #4CID5<cr>
381	381
382	382	Setting a servo's ID in EEPROM is done via the CID command. All servos connected to the same serial bus will be assigned that ID. In most situations each servo must be set a unique ID, which means each servo must be connected individually to the serial bus and receive a unique CID number. It is best to do this before the servos are added to an assembly. Numbered stickers are provided to distinguish each servo after their ID is set, though you are free to use whatever alternative method you like.
383	383
...	...	@@ -424,13 +424,13 @@
424	424
425	425	Ex: #5QFP<cr> might return *5QFP1550<cr>
426	426
427		-The reply above indicates that servo with ID 5 has a first position pulse of 1550 microseconds.
	437	+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").
428	428
429		-Configure First Position in Pulses (CFP)
	439	+Configure First Position in Pulses (**CFP**)
430	430
431	431	Ex: #5CP1550<cr>
432	432
433		-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 results in the servo remaining limp upon power up.
	443	+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 results in the servo remaining limp upon power up (i.e. disabled).
434	434
435	435	__21. First / Initial Position (Degrees)__
436	436
...	...	@@ -474,9 +474,20 @@
474	474
475	475	__26. Query Status (**Q**)__
476	476
477		-Ex: #5Q<cr> might return *5Q_<cr>
	487	+Ex: #5Q<cr> might return *5Q6<cr>, which indicates the motor is holding a position.
478	478
479		-{Description coming soon}
	489	+|*Value returned|**Status**|**Detailed description**
	490	+|ex: *5Q0<cr>|Unknown|LSS is unsure
	491	+|ex: *5Q1<cr>|Limp|Motor driving circuit is not powered and horn can be moved freely
	492	+|ex: *5Q2<cr>|Free moving|Motor driving circuit is not powered and horn can be moved freely
	493	+|ex: *5Q3<cr>|Accelerating|Increasing speed from rest (or previous speeD) towards travel speed
	494	+|ex: *5Q4<cr>|Traveling|Moving at a stable speed
	495	+|ex: *5Q5<cr>|Deccelerating|Decreasing speed towards travel speed towards rest
	496	+|ex: *5Q6<cr>|Holding|Keeping current position
	497	+|ex: *5Q7<cr>|Stepping|Special low speed mode to maintain torque
	498	+|ex: *5Q8<cr>|Outside limits|More details coming soon
	499	+|ex: *5Q9<cr>|Stuck|Motor cannot perform request movement at current speed setting
	500	+|ex: *5Q10<cr>|Blocked|Similar to stuck, but the motor is at maxiumum duty and still cannot move (i.e.: stalled)
480	480
481	481	__27. Query Voltage (**QV**)__
482	482