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Why is Arduino resetting while driving motors?
Question different ways of connecting L298N motor driver board to arduino and motors and powering themPowering motorsDriving stepper motors adafruit motor shield v2Mega pin stuck high after driving optocouplerMotors settingsControlling 5 DC motors with ArduinoRunning multiple motors simultaneouslyDriving two stepper motors using one stepper motor driverCan removing lines of code destroy a motor driver and make it catch fire?Will this power supply work with a MG-996R Servo?
I am driving motors for my line-follower project . The circuit schematic is given below
The power source is a 11.1V 2200mAh 25C Lipo . Practically the cells give 11.5-12V. I used a switching buck regulator to step down the voltage. However , when i run my robot on track after few seconds,the arduino tends to reset and run again. This problem typically arises when i drive the motors at higher PWM(above 180 on analogWrite function). Since i use PID, limiting the PWM means i have to drive at lower speeds which i do not want.
I am providing links for the items i used for my circuit.
1) BUCK CONVERTER - https://www.amazon.in/LM2596S-Converter-Module-Supply-1-23V-30V/dp/B0784PYZ97/ref=sr_1_14_sspa?crid=2XRBYP632OY0B&keywords=buck+converter&qid=1553455574&s=electronics&sprefix=buck+c%2Celectronics%2C298&sr=1-14-spons&psc=1
2) MOTOR DRIVER - https://www.amazon.in/Generic-E_14013096-Tb6612Fng-Arduino-Microcontroller/dp/B01DAA6GMC/ref=sr_1_1?crid=TKGYYCKNQJCK&keywords=tb6612fng+dual+motor+driver&qid=1553455725&s=gateway&sprefix=tb66%2Celectronics%2C812&sr=8-1
3) IR SENSOR MODULE - https://www.amazon.in/Products-Channel-Analogue-Digital-Follower/dp/B07GXL5L7J/ref=sr_1_2?keywords=ir+sensor&qid=1553455761&s=electronics&sr=1-2
4) DC MOTORS - https://www.amazon.in/Invento-Kg-cm-Shaft-Torque-Geared/dp/B07CKMFYDG/ref=sr_1_34?crid=32XN84K8LZ4PJ&keywords=dc+motor+500+rpm&qid=1553455839&s=gateway&sprefix=dc+motor+500%2Caps%2C320&sr=8-34
The sensor array draws 150mA at peak. Any suggestions as to where the problem might lie would be of great help. Thank you .
arduino-mega power motor ir
New contributor
add a comment |
I am driving motors for my line-follower project . The circuit schematic is given below
The power source is a 11.1V 2200mAh 25C Lipo . Practically the cells give 11.5-12V. I used a switching buck regulator to step down the voltage. However , when i run my robot on track after few seconds,the arduino tends to reset and run again. This problem typically arises when i drive the motors at higher PWM(above 180 on analogWrite function). Since i use PID, limiting the PWM means i have to drive at lower speeds which i do not want.
I am providing links for the items i used for my circuit.
1) BUCK CONVERTER - https://www.amazon.in/LM2596S-Converter-Module-Supply-1-23V-30V/dp/B0784PYZ97/ref=sr_1_14_sspa?crid=2XRBYP632OY0B&keywords=buck+converter&qid=1553455574&s=electronics&sprefix=buck+c%2Celectronics%2C298&sr=1-14-spons&psc=1
2) MOTOR DRIVER - https://www.amazon.in/Generic-E_14013096-Tb6612Fng-Arduino-Microcontroller/dp/B01DAA6GMC/ref=sr_1_1?crid=TKGYYCKNQJCK&keywords=tb6612fng+dual+motor+driver&qid=1553455725&s=gateway&sprefix=tb66%2Celectronics%2C812&sr=8-1
3) IR SENSOR MODULE - https://www.amazon.in/Products-Channel-Analogue-Digital-Follower/dp/B07GXL5L7J/ref=sr_1_2?keywords=ir+sensor&qid=1553455761&s=electronics&sr=1-2
4) DC MOTORS - https://www.amazon.in/Invento-Kg-cm-Shaft-Torque-Geared/dp/B07CKMFYDG/ref=sr_1_34?crid=32XN84K8LZ4PJ&keywords=dc+motor+500+rpm&qid=1553455839&s=gateway&sprefix=dc+motor+500%2Caps%2C320&sr=8-34
The sensor array draws 150mA at peak. Any suggestions as to where the problem might lie would be of great help. Thank you .
arduino-mega power motor ir
New contributor
The buck converter is producing 5.5 V? That may be too low for the VIN input on Arduino, where the voltage regulator needs at least 7 V and is therefore causing brown-out.
– MichaelT
2 hours ago
add a comment |
I am driving motors for my line-follower project . The circuit schematic is given below
The power source is a 11.1V 2200mAh 25C Lipo . Practically the cells give 11.5-12V. I used a switching buck regulator to step down the voltage. However , when i run my robot on track after few seconds,the arduino tends to reset and run again. This problem typically arises when i drive the motors at higher PWM(above 180 on analogWrite function). Since i use PID, limiting the PWM means i have to drive at lower speeds which i do not want.
I am providing links for the items i used for my circuit.
1) BUCK CONVERTER - https://www.amazon.in/LM2596S-Converter-Module-Supply-1-23V-30V/dp/B0784PYZ97/ref=sr_1_14_sspa?crid=2XRBYP632OY0B&keywords=buck+converter&qid=1553455574&s=electronics&sprefix=buck+c%2Celectronics%2C298&sr=1-14-spons&psc=1
2) MOTOR DRIVER - https://www.amazon.in/Generic-E_14013096-Tb6612Fng-Arduino-Microcontroller/dp/B01DAA6GMC/ref=sr_1_1?crid=TKGYYCKNQJCK&keywords=tb6612fng+dual+motor+driver&qid=1553455725&s=gateway&sprefix=tb66%2Celectronics%2C812&sr=8-1
3) IR SENSOR MODULE - https://www.amazon.in/Products-Channel-Analogue-Digital-Follower/dp/B07GXL5L7J/ref=sr_1_2?keywords=ir+sensor&qid=1553455761&s=electronics&sr=1-2
4) DC MOTORS - https://www.amazon.in/Invento-Kg-cm-Shaft-Torque-Geared/dp/B07CKMFYDG/ref=sr_1_34?crid=32XN84K8LZ4PJ&keywords=dc+motor+500+rpm&qid=1553455839&s=gateway&sprefix=dc+motor+500%2Caps%2C320&sr=8-34
The sensor array draws 150mA at peak. Any suggestions as to where the problem might lie would be of great help. Thank you .
arduino-mega power motor ir
New contributor
I am driving motors for my line-follower project . The circuit schematic is given below
The power source is a 11.1V 2200mAh 25C Lipo . Practically the cells give 11.5-12V. I used a switching buck regulator to step down the voltage. However , when i run my robot on track after few seconds,the arduino tends to reset and run again. This problem typically arises when i drive the motors at higher PWM(above 180 on analogWrite function). Since i use PID, limiting the PWM means i have to drive at lower speeds which i do not want.
I am providing links for the items i used for my circuit.
1) BUCK CONVERTER - https://www.amazon.in/LM2596S-Converter-Module-Supply-1-23V-30V/dp/B0784PYZ97/ref=sr_1_14_sspa?crid=2XRBYP632OY0B&keywords=buck+converter&qid=1553455574&s=electronics&sprefix=buck+c%2Celectronics%2C298&sr=1-14-spons&psc=1
2) MOTOR DRIVER - https://www.amazon.in/Generic-E_14013096-Tb6612Fng-Arduino-Microcontroller/dp/B01DAA6GMC/ref=sr_1_1?crid=TKGYYCKNQJCK&keywords=tb6612fng+dual+motor+driver&qid=1553455725&s=gateway&sprefix=tb66%2Celectronics%2C812&sr=8-1
3) IR SENSOR MODULE - https://www.amazon.in/Products-Channel-Analogue-Digital-Follower/dp/B07GXL5L7J/ref=sr_1_2?keywords=ir+sensor&qid=1553455761&s=electronics&sr=1-2
4) DC MOTORS - https://www.amazon.in/Invento-Kg-cm-Shaft-Torque-Geared/dp/B07CKMFYDG/ref=sr_1_34?crid=32XN84K8LZ4PJ&keywords=dc+motor+500+rpm&qid=1553455839&s=gateway&sprefix=dc+motor+500%2Caps%2C320&sr=8-34
The sensor array draws 150mA at peak. Any suggestions as to where the problem might lie would be of great help. Thank you .
arduino-mega power motor ir
arduino-mega power motor ir
New contributor
New contributor
New contributor
asked 4 hours ago
user9999114user9999114
61
61
New contributor
New contributor
The buck converter is producing 5.5 V? That may be too low for the VIN input on Arduino, where the voltage regulator needs at least 7 V and is therefore causing brown-out.
– MichaelT
2 hours ago
add a comment |
The buck converter is producing 5.5 V? That may be too low for the VIN input on Arduino, where the voltage regulator needs at least 7 V and is therefore causing brown-out.
– MichaelT
2 hours ago
The buck converter is producing 5.5 V? That may be too low for the VIN input on Arduino, where the voltage regulator needs at least 7 V and is therefore causing brown-out.
– MichaelT
2 hours ago
The buck converter is producing 5.5 V? That may be too low for the VIN input on Arduino, where the voltage regulator needs at least 7 V and is therefore causing brown-out.
– MichaelT
2 hours ago
add a comment |
3 Answers
3
active
oldest
votes
The VIN pin goes to a 5V voltage regulator on the Arduino and needs at least about 7V minimum to work properly. If you want to supply 5V to an Arduino do it either on the 5V pin or via the USB connector. The VIN pin should receive 7V to 12V.
This is the correct answer. VIN a high enough voltage to be regulated down to 5V. I suggest feeding 5V into your USB connector. That way you don't bypass the source switching and protection circuitry on the Arduino.
– Duncan C
2 hours ago
add a comment |
Resetting is due either to a software bug or voltage sag, and since it correlates with driving the motors harder, it's almost certainly the latter. You probably suspected as much since you mentioned the current draw of the sensor array. A quick experiment - disconnecting the sensors (and possibly a software patch to keep the robot running straight, without them) might help you discover the reason.
Each chip and each of its pin drivers has a current budget. It would be a good idea to look at the max current spec of the Atmega2560 and its pin drivers, and any other current specs mentioned in the datasheet, and make sure you're not trying to run it out of spec. The buck converter will have a limit, too, so make sure you're within its spec. If the output regulation of the buck converter is good enough, you can regulate it to 5v and bypass the Mega's on board regulator, for another saving.
add a comment |
One major drawback to working with motors is the large amounts of electrical noise they produce. This noise can interfere with your sensors and can even impair your microcontroller by causing voltage dips on your regulated power line. Large enough voltage dips can corrupt the data in microcontroller registers or cause the microcontroller to reset. You can avoid this problem by soldering capacitors along your motor terminals. Use 1µF ceramic capacitors for example
Why the down-vote? Everything in this answer is good advice. Motors introduce a lot of noise on the power input. Adding filter capacitors is a very good idea. (That said, the biggest problem is likely too low an input voltage to VIN)
– Duncan C
1 hour ago
add a comment |
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3 Answers
3
active
oldest
votes
3 Answers
3
active
oldest
votes
active
oldest
votes
active
oldest
votes
The VIN pin goes to a 5V voltage regulator on the Arduino and needs at least about 7V minimum to work properly. If you want to supply 5V to an Arduino do it either on the 5V pin or via the USB connector. The VIN pin should receive 7V to 12V.
This is the correct answer. VIN a high enough voltage to be regulated down to 5V. I suggest feeding 5V into your USB connector. That way you don't bypass the source switching and protection circuitry on the Arduino.
– Duncan C
2 hours ago
add a comment |
The VIN pin goes to a 5V voltage regulator on the Arduino and needs at least about 7V minimum to work properly. If you want to supply 5V to an Arduino do it either on the 5V pin or via the USB connector. The VIN pin should receive 7V to 12V.
This is the correct answer. VIN a high enough voltage to be regulated down to 5V. I suggest feeding 5V into your USB connector. That way you don't bypass the source switching and protection circuitry on the Arduino.
– Duncan C
2 hours ago
add a comment |
The VIN pin goes to a 5V voltage regulator on the Arduino and needs at least about 7V minimum to work properly. If you want to supply 5V to an Arduino do it either on the 5V pin or via the USB connector. The VIN pin should receive 7V to 12V.
The VIN pin goes to a 5V voltage regulator on the Arduino and needs at least about 7V minimum to work properly. If you want to supply 5V to an Arduino do it either on the 5V pin or via the USB connector. The VIN pin should receive 7V to 12V.
answered 4 hours ago
Jeff WahausJeff Wahaus
4185
4185
This is the correct answer. VIN a high enough voltage to be regulated down to 5V. I suggest feeding 5V into your USB connector. That way you don't bypass the source switching and protection circuitry on the Arduino.
– Duncan C
2 hours ago
add a comment |
This is the correct answer. VIN a high enough voltage to be regulated down to 5V. I suggest feeding 5V into your USB connector. That way you don't bypass the source switching and protection circuitry on the Arduino.
– Duncan C
2 hours ago
This is the correct answer. VIN a high enough voltage to be regulated down to 5V. I suggest feeding 5V into your USB connector. That way you don't bypass the source switching and protection circuitry on the Arduino.
– Duncan C
2 hours ago
This is the correct answer. VIN a high enough voltage to be regulated down to 5V. I suggest feeding 5V into your USB connector. That way you don't bypass the source switching and protection circuitry on the Arduino.
– Duncan C
2 hours ago
add a comment |
Resetting is due either to a software bug or voltage sag, and since it correlates with driving the motors harder, it's almost certainly the latter. You probably suspected as much since you mentioned the current draw of the sensor array. A quick experiment - disconnecting the sensors (and possibly a software patch to keep the robot running straight, without them) might help you discover the reason.
Each chip and each of its pin drivers has a current budget. It would be a good idea to look at the max current spec of the Atmega2560 and its pin drivers, and any other current specs mentioned in the datasheet, and make sure you're not trying to run it out of spec. The buck converter will have a limit, too, so make sure you're within its spec. If the output regulation of the buck converter is good enough, you can regulate it to 5v and bypass the Mega's on board regulator, for another saving.
add a comment |
Resetting is due either to a software bug or voltage sag, and since it correlates with driving the motors harder, it's almost certainly the latter. You probably suspected as much since you mentioned the current draw of the sensor array. A quick experiment - disconnecting the sensors (and possibly a software patch to keep the robot running straight, without them) might help you discover the reason.
Each chip and each of its pin drivers has a current budget. It would be a good idea to look at the max current spec of the Atmega2560 and its pin drivers, and any other current specs mentioned in the datasheet, and make sure you're not trying to run it out of spec. The buck converter will have a limit, too, so make sure you're within its spec. If the output regulation of the buck converter is good enough, you can regulate it to 5v and bypass the Mega's on board regulator, for another saving.
add a comment |
Resetting is due either to a software bug or voltage sag, and since it correlates with driving the motors harder, it's almost certainly the latter. You probably suspected as much since you mentioned the current draw of the sensor array. A quick experiment - disconnecting the sensors (and possibly a software patch to keep the robot running straight, without them) might help you discover the reason.
Each chip and each of its pin drivers has a current budget. It would be a good idea to look at the max current spec of the Atmega2560 and its pin drivers, and any other current specs mentioned in the datasheet, and make sure you're not trying to run it out of spec. The buck converter will have a limit, too, so make sure you're within its spec. If the output regulation of the buck converter is good enough, you can regulate it to 5v and bypass the Mega's on board regulator, for another saving.
Resetting is due either to a software bug or voltage sag, and since it correlates with driving the motors harder, it's almost certainly the latter. You probably suspected as much since you mentioned the current draw of the sensor array. A quick experiment - disconnecting the sensors (and possibly a software patch to keep the robot running straight, without them) might help you discover the reason.
Each chip and each of its pin drivers has a current budget. It would be a good idea to look at the max current spec of the Atmega2560 and its pin drivers, and any other current specs mentioned in the datasheet, and make sure you're not trying to run it out of spec. The buck converter will have a limit, too, so make sure you're within its spec. If the output regulation of the buck converter is good enough, you can regulate it to 5v and bypass the Mega's on board regulator, for another saving.
answered 4 hours ago
JRobertJRobert
10.2k21136
10.2k21136
add a comment |
add a comment |
One major drawback to working with motors is the large amounts of electrical noise they produce. This noise can interfere with your sensors and can even impair your microcontroller by causing voltage dips on your regulated power line. Large enough voltage dips can corrupt the data in microcontroller registers or cause the microcontroller to reset. You can avoid this problem by soldering capacitors along your motor terminals. Use 1µF ceramic capacitors for example
Why the down-vote? Everything in this answer is good advice. Motors introduce a lot of noise on the power input. Adding filter capacitors is a very good idea. (That said, the biggest problem is likely too low an input voltage to VIN)
– Duncan C
1 hour ago
add a comment |
One major drawback to working with motors is the large amounts of electrical noise they produce. This noise can interfere with your sensors and can even impair your microcontroller by causing voltage dips on your regulated power line. Large enough voltage dips can corrupt the data in microcontroller registers or cause the microcontroller to reset. You can avoid this problem by soldering capacitors along your motor terminals. Use 1µF ceramic capacitors for example
Why the down-vote? Everything in this answer is good advice. Motors introduce a lot of noise on the power input. Adding filter capacitors is a very good idea. (That said, the biggest problem is likely too low an input voltage to VIN)
– Duncan C
1 hour ago
add a comment |
One major drawback to working with motors is the large amounts of electrical noise they produce. This noise can interfere with your sensors and can even impair your microcontroller by causing voltage dips on your regulated power line. Large enough voltage dips can corrupt the data in microcontroller registers or cause the microcontroller to reset. You can avoid this problem by soldering capacitors along your motor terminals. Use 1µF ceramic capacitors for example
One major drawback to working with motors is the large amounts of electrical noise they produce. This noise can interfere with your sensors and can even impair your microcontroller by causing voltage dips on your regulated power line. Large enough voltage dips can corrupt the data in microcontroller registers or cause the microcontroller to reset. You can avoid this problem by soldering capacitors along your motor terminals. Use 1µF ceramic capacitors for example
answered 2 hours ago
Zunzulla alagatyZunzulla alagaty
9111
9111
Why the down-vote? Everything in this answer is good advice. Motors introduce a lot of noise on the power input. Adding filter capacitors is a very good idea. (That said, the biggest problem is likely too low an input voltage to VIN)
– Duncan C
1 hour ago
add a comment |
Why the down-vote? Everything in this answer is good advice. Motors introduce a lot of noise on the power input. Adding filter capacitors is a very good idea. (That said, the biggest problem is likely too low an input voltage to VIN)
– Duncan C
1 hour ago
Why the down-vote? Everything in this answer is good advice. Motors introduce a lot of noise on the power input. Adding filter capacitors is a very good idea. (That said, the biggest problem is likely too low an input voltage to VIN)
– Duncan C
1 hour ago
Why the down-vote? Everything in this answer is good advice. Motors introduce a lot of noise on the power input. Adding filter capacitors is a very good idea. (That said, the biggest problem is likely too low an input voltage to VIN)
– Duncan C
1 hour ago
add a comment |
user9999114 is a new contributor. Be nice, and check out our Code of Conduct.
user9999114 is a new contributor. Be nice, and check out our Code of Conduct.
user9999114 is a new contributor. Be nice, and check out our Code of Conduct.
user9999114 is a new contributor. Be nice, and check out our Code of Conduct.
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The buck converter is producing 5.5 V? That may be too low for the VIN input on Arduino, where the voltage regulator needs at least 7 V and is therefore causing brown-out.
– MichaelT
2 hours ago