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Both sides previous revision Previous revision Next revision | Previous revision | ||
dh4d:led_errorcodes [2016/06/06 02:18] – [Setting an Actuator LED on] wadmin | dh4d:led_errorcodes [2017/03/23 16:13] (current) – wadmin | ||
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- | ===== LED Error Codes ===== | + | ===== [Ares Architecture] |
SR-DH4D/ | SR-DH4D/ | ||
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In practice, the LED will show the user selected colour, go off for a brief period, and then quickly blink the number of times corresponding to the actuator number. This cycle will continuously repeat. The colour used for blinking is the same set for the user colour. | In practice, the LED will show the user selected colour, go off for a brief period, and then quickly blink the number of times corresponding to the actuator number. This cycle will continuously repeat. The colour used for blinking is the same set for the user colour. | ||
- | For example if you enable LED for actuator 2, you will see the following sequence:\\ | + | For example if you enable LED for actuator |
'' | '' | ||
(and then Long User colour again as the cycle repeats) | (and then Long User colour again as the cycle repeats) | ||
- | If you enable the LED on more actuators, the sequence is further enlarged with the addition of the nr. of blinks for each actuator. | + | If you enable the LED on more actuators, the sequence is further enlarged with the addition of the nr. of blinks for each actuator, separated by a Long Off period between actuator slots to distinguish the blink sequences of each one. |
==== Error Conditions ==== | ==== Error Conditions ==== | ||
- | When an error condition occurs, the LED for the actuator where the error happened turns on as explained above. | + | When an error condition occurs, the LED for the actuator where the error happened turns on, as explained above. |
However, on an error condition, the Blinking colour will not be the user set colour (as above), but instead, the visible colour will indicate the type of error. | However, on an error condition, the Blinking colour will not be the user set colour (as above), but instead, the visible colour will indicate the type of error. | ||
- | When an error occurs, observe the blinking sequence: the number of fast blinks will indicate the actuator number. Bear in mind that in case more than one actuator has an Error Condition, the blinking sequence, will be reporting | + | When an error occurs, observe the blinking sequence: the number of fast blinks will indicate the actuator number. |
+ | Bear in mind that, in case more than one actuator has an Error Condition, the blinking sequence will blink the error of each affected | ||
The list of errors/ | The list of errors/ | ||
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=== GREEN === | === GREEN === | ||
- | If the LED is Blinking Green it means the actuator is showing early signs of failure. You don't need to immediately replace | + | If the LED is Blinking Green it means the actuator is showing early signs of failure. You don't need to immediately replace |
- | + | ||
- | This diagnostic is performed by analyzing a number fo parameters during the operation of the actuator which are then normalized into a **" | + | |
- | You can check the Health Index of the actuator by issuing the '' | + | |
- | A healthy actuator has a Health Index of 100. The lower the number, the closer the actuator is to its EOL. When it goes below 10, the actuator is triggers the nest error (Purple). | + | |
- | Bear in mind that this number is calculated dynamically after every power on. External factors such as high temperatures or longer run times may lower the Health Index momentarily but after a reboot the Health Index may become higher. This normal and is a result of this dynamic analysis. The worst observed value over time, should the one to use as reference. | + | |
This error condition is merely INFORMATIONAL and will not affect the operation of the actuator: the actuator will continue to respond to torque, position, etc. commands normally. | This error condition is merely INFORMATIONAL and will not affect the operation of the actuator: the actuator will continue to respond to torque, position, etc. commands normally. | ||
+ | |||
+ | This diagnostic is performed by the firmware, by analyzing a number of parameters during the operation of the actuator. These are then normalized into a **" | ||
+ | You can check the Health Index of the actuator by issuing the '' | ||
+ | A healthy actuator has a Health Index of 100. The lower the number, the closer the actuator is to its EOL. When this index goes below 10, the actuator triggers the next error (Purple), signaling a permanent failure. | ||
+ | |||
+ | Bear in mind the " | ||
+ | |||
=== PURPLE === | === PURPLE === | ||
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When an actuator is in this condition, it is likely still functional but has degraded to a point where it is operating outside the set and acceptable parameters for the system. | When an actuator is in this condition, it is likely still functional but has degraded to a point where it is operating outside the set and acceptable parameters for the system. | ||
- | In this case, the actuator needs to be replaced. If encounter this condition, we recommend contacting our Technical Services (support@seedrobotics.com) and we'll gladly assist you with the procedure to get your unit in top working condition | + | In this case, the actuator needs to be replaced. If encounter this condition, we recommend contacting our Technical Services (support@seedrobotics.com) and we'll gladly assist you with the procedure to get your unit in top working condition again. |
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