Can I use a larger HVAC Hard Start kit than is recommended?Advice for replacement/repair of an HVAC with a...
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Can I use a larger HVAC Hard Start kit than is recommended?
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I've got a 2.5 ton HVAC system. I've been looking at adding one of the 5-2-1 Hard Start kits to reduce the wear on the system. I see that they have recommended sizes for 1-2-3 ton, 4 ton, and 5 ton systems.
Is there a reason I can't use the 4 ton kit on my 2.5 ton unit? Would it not just supply more support?
hvac
add a comment |
I've got a 2.5 ton HVAC system. I've been looking at adding one of the 5-2-1 Hard Start kits to reduce the wear on the system. I see that they have recommended sizes for 1-2-3 ton, 4 ton, and 5 ton systems.
Is there a reason I can't use the 4 ton kit on my 2.5 ton unit? Would it not just supply more support?
hvac
The capacitor is creating a phase shift, the size of the cap needs to match up with the motor size to large of a cap can cause problems also.
– Ed Beal
3 hours ago
I was curious, so I'm just going to leave this here. The 5-2-1 name comes from the standard numbering of the relay terminals on the relay this type of device uses. Similar to the terminal numbers on automotive relays (85-86-87-30).
– JPhi1618
3 hours ago
Just curious, where did you even get the idea that this is something you should do?
– R..
13 mins ago
add a comment |
I've got a 2.5 ton HVAC system. I've been looking at adding one of the 5-2-1 Hard Start kits to reduce the wear on the system. I see that they have recommended sizes for 1-2-3 ton, 4 ton, and 5 ton systems.
Is there a reason I can't use the 4 ton kit on my 2.5 ton unit? Would it not just supply more support?
hvac
I've got a 2.5 ton HVAC system. I've been looking at adding one of the 5-2-1 Hard Start kits to reduce the wear on the system. I see that they have recommended sizes for 1-2-3 ton, 4 ton, and 5 ton systems.
Is there a reason I can't use the 4 ton kit on my 2.5 ton unit? Would it not just supply more support?
hvac
hvac
edited 4 hours ago
Jeffery Thomas
asked 4 hours ago
Jeffery ThomasJeffery Thomas
1487
1487
The capacitor is creating a phase shift, the size of the cap needs to match up with the motor size to large of a cap can cause problems also.
– Ed Beal
3 hours ago
I was curious, so I'm just going to leave this here. The 5-2-1 name comes from the standard numbering of the relay terminals on the relay this type of device uses. Similar to the terminal numbers on automotive relays (85-86-87-30).
– JPhi1618
3 hours ago
Just curious, where did you even get the idea that this is something you should do?
– R..
13 mins ago
add a comment |
The capacitor is creating a phase shift, the size of the cap needs to match up with the motor size to large of a cap can cause problems also.
– Ed Beal
3 hours ago
I was curious, so I'm just going to leave this here. The 5-2-1 name comes from the standard numbering of the relay terminals on the relay this type of device uses. Similar to the terminal numbers on automotive relays (85-86-87-30).
– JPhi1618
3 hours ago
Just curious, where did you even get the idea that this is something you should do?
– R..
13 mins ago
The capacitor is creating a phase shift, the size of the cap needs to match up with the motor size to large of a cap can cause problems also.
– Ed Beal
3 hours ago
The capacitor is creating a phase shift, the size of the cap needs to match up with the motor size to large of a cap can cause problems also.
– Ed Beal
3 hours ago
I was curious, so I'm just going to leave this here. The 5-2-1 name comes from the standard numbering of the relay terminals on the relay this type of device uses. Similar to the terminal numbers on automotive relays (85-86-87-30).
– JPhi1618
3 hours ago
I was curious, so I'm just going to leave this here. The 5-2-1 name comes from the standard numbering of the relay terminals on the relay this type of device uses. Similar to the terminal numbers on automotive relays (85-86-87-30).
– JPhi1618
3 hours ago
Just curious, where did you even get the idea that this is something you should do?
– R..
13 mins ago
Just curious, where did you even get the idea that this is something you should do?
– R..
13 mins ago
add a comment |
2 Answers
2
active
oldest
votes
Does your compressor start now? If it does, adding a hard start kit does absolutely nothing beneficial for you and in fact might be harmful. The original intent of a hard start kit was to compensate for voltage drop in the wiring by the time it gets out to a compressor, especially in areas where the utility supply may drop during high use days (i.e. all of your neighbors are home using their AC systems). But for the people who make them, that was not enough sales volume, so they "invented" a problem needing a solution. Their claim is that a compressor starts with high current and that this is damaging the compressor; which is an utter falsehood. The 5-2-1 sales literature starts out with a LIE! It states that "Amps x Volts = wattage" and that wattage is what you pay for. So per their concept, when the starting current goes to 600% (they say 700% witch is an exaggeration), the watts go up so high that the motor over heats. The lie is that watts = amps x volts x POWER FACTOR, and when a motor first starts, the power factor is extremely low. So for example if your 230V motor draws 10A when running, and the PF = 80%, the watts used is 230 x 10 x .8 or 1840W. On starting though, it is going to be 60A x 230V, but the PF is .2, so the watts are 2760, not 13,800 as they would claim.
What the "hard start" kit does is add another capacitor to the motor only for start-up, which compensates for the low power factor, then automatically switches it out of the circuit when the motor gets to 80% speed, usually less than 1 second. It ALSO increases the voltage, which increases the torque, which can be potentially DAMAGING to the compressor. They don't tell you that part!
Hard start kits have a legitimate purpose, but making your compressor last longer when it is not having trouble starting is bogus.
As to your question; yes, if you use a hard start kit intended for a larger motor, it can INCREASE that potential for excess torque damage.
They also say that a worn run capacitor can make the compressor use 10-20% more electricity vs a new capacitor. Seems like if that was true, installing a new run capacitor would be a regular maintenance task like changing an air filter (albeit less frequently...). Now I'm really curious if there's any truth to the "old capacitor" logic.
– JPhi1618
3 hours ago
Just curious, how do you know so much about this? You seem to have a good understanding.
– Jeffery Thomas
2 hours ago
add a comment |
The starting capacitor is the largest difference in the various 5-2-1 devices. You don't want too large of a starting capacitor. You need to use the correct one for your application.
FYI: Multiply the load amps by 2,650. Divide this number by the supply voltage. The resulting number is the capacity of the capacitor you need in microfarads (µF).
add a comment |
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2 Answers
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Does your compressor start now? If it does, adding a hard start kit does absolutely nothing beneficial for you and in fact might be harmful. The original intent of a hard start kit was to compensate for voltage drop in the wiring by the time it gets out to a compressor, especially in areas where the utility supply may drop during high use days (i.e. all of your neighbors are home using their AC systems). But for the people who make them, that was not enough sales volume, so they "invented" a problem needing a solution. Their claim is that a compressor starts with high current and that this is damaging the compressor; which is an utter falsehood. The 5-2-1 sales literature starts out with a LIE! It states that "Amps x Volts = wattage" and that wattage is what you pay for. So per their concept, when the starting current goes to 600% (they say 700% witch is an exaggeration), the watts go up so high that the motor over heats. The lie is that watts = amps x volts x POWER FACTOR, and when a motor first starts, the power factor is extremely low. So for example if your 230V motor draws 10A when running, and the PF = 80%, the watts used is 230 x 10 x .8 or 1840W. On starting though, it is going to be 60A x 230V, but the PF is .2, so the watts are 2760, not 13,800 as they would claim.
What the "hard start" kit does is add another capacitor to the motor only for start-up, which compensates for the low power factor, then automatically switches it out of the circuit when the motor gets to 80% speed, usually less than 1 second. It ALSO increases the voltage, which increases the torque, which can be potentially DAMAGING to the compressor. They don't tell you that part!
Hard start kits have a legitimate purpose, but making your compressor last longer when it is not having trouble starting is bogus.
As to your question; yes, if you use a hard start kit intended for a larger motor, it can INCREASE that potential for excess torque damage.
They also say that a worn run capacitor can make the compressor use 10-20% more electricity vs a new capacitor. Seems like if that was true, installing a new run capacitor would be a regular maintenance task like changing an air filter (albeit less frequently...). Now I'm really curious if there's any truth to the "old capacitor" logic.
– JPhi1618
3 hours ago
Just curious, how do you know so much about this? You seem to have a good understanding.
– Jeffery Thomas
2 hours ago
add a comment |
Does your compressor start now? If it does, adding a hard start kit does absolutely nothing beneficial for you and in fact might be harmful. The original intent of a hard start kit was to compensate for voltage drop in the wiring by the time it gets out to a compressor, especially in areas where the utility supply may drop during high use days (i.e. all of your neighbors are home using their AC systems). But for the people who make them, that was not enough sales volume, so they "invented" a problem needing a solution. Their claim is that a compressor starts with high current and that this is damaging the compressor; which is an utter falsehood. The 5-2-1 sales literature starts out with a LIE! It states that "Amps x Volts = wattage" and that wattage is what you pay for. So per their concept, when the starting current goes to 600% (they say 700% witch is an exaggeration), the watts go up so high that the motor over heats. The lie is that watts = amps x volts x POWER FACTOR, and when a motor first starts, the power factor is extremely low. So for example if your 230V motor draws 10A when running, and the PF = 80%, the watts used is 230 x 10 x .8 or 1840W. On starting though, it is going to be 60A x 230V, but the PF is .2, so the watts are 2760, not 13,800 as they would claim.
What the "hard start" kit does is add another capacitor to the motor only for start-up, which compensates for the low power factor, then automatically switches it out of the circuit when the motor gets to 80% speed, usually less than 1 second. It ALSO increases the voltage, which increases the torque, which can be potentially DAMAGING to the compressor. They don't tell you that part!
Hard start kits have a legitimate purpose, but making your compressor last longer when it is not having trouble starting is bogus.
As to your question; yes, if you use a hard start kit intended for a larger motor, it can INCREASE that potential for excess torque damage.
They also say that a worn run capacitor can make the compressor use 10-20% more electricity vs a new capacitor. Seems like if that was true, installing a new run capacitor would be a regular maintenance task like changing an air filter (albeit less frequently...). Now I'm really curious if there's any truth to the "old capacitor" logic.
– JPhi1618
3 hours ago
Just curious, how do you know so much about this? You seem to have a good understanding.
– Jeffery Thomas
2 hours ago
add a comment |
Does your compressor start now? If it does, adding a hard start kit does absolutely nothing beneficial for you and in fact might be harmful. The original intent of a hard start kit was to compensate for voltage drop in the wiring by the time it gets out to a compressor, especially in areas where the utility supply may drop during high use days (i.e. all of your neighbors are home using their AC systems). But for the people who make them, that was not enough sales volume, so they "invented" a problem needing a solution. Their claim is that a compressor starts with high current and that this is damaging the compressor; which is an utter falsehood. The 5-2-1 sales literature starts out with a LIE! It states that "Amps x Volts = wattage" and that wattage is what you pay for. So per their concept, when the starting current goes to 600% (they say 700% witch is an exaggeration), the watts go up so high that the motor over heats. The lie is that watts = amps x volts x POWER FACTOR, and when a motor first starts, the power factor is extremely low. So for example if your 230V motor draws 10A when running, and the PF = 80%, the watts used is 230 x 10 x .8 or 1840W. On starting though, it is going to be 60A x 230V, but the PF is .2, so the watts are 2760, not 13,800 as they would claim.
What the "hard start" kit does is add another capacitor to the motor only for start-up, which compensates for the low power factor, then automatically switches it out of the circuit when the motor gets to 80% speed, usually less than 1 second. It ALSO increases the voltage, which increases the torque, which can be potentially DAMAGING to the compressor. They don't tell you that part!
Hard start kits have a legitimate purpose, but making your compressor last longer when it is not having trouble starting is bogus.
As to your question; yes, if you use a hard start kit intended for a larger motor, it can INCREASE that potential for excess torque damage.
Does your compressor start now? If it does, adding a hard start kit does absolutely nothing beneficial for you and in fact might be harmful. The original intent of a hard start kit was to compensate for voltage drop in the wiring by the time it gets out to a compressor, especially in areas where the utility supply may drop during high use days (i.e. all of your neighbors are home using their AC systems). But for the people who make them, that was not enough sales volume, so they "invented" a problem needing a solution. Their claim is that a compressor starts with high current and that this is damaging the compressor; which is an utter falsehood. The 5-2-1 sales literature starts out with a LIE! It states that "Amps x Volts = wattage" and that wattage is what you pay for. So per their concept, when the starting current goes to 600% (they say 700% witch is an exaggeration), the watts go up so high that the motor over heats. The lie is that watts = amps x volts x POWER FACTOR, and when a motor first starts, the power factor is extremely low. So for example if your 230V motor draws 10A when running, and the PF = 80%, the watts used is 230 x 10 x .8 or 1840W. On starting though, it is going to be 60A x 230V, but the PF is .2, so the watts are 2760, not 13,800 as they would claim.
What the "hard start" kit does is add another capacitor to the motor only for start-up, which compensates for the low power factor, then automatically switches it out of the circuit when the motor gets to 80% speed, usually less than 1 second. It ALSO increases the voltage, which increases the torque, which can be potentially DAMAGING to the compressor. They don't tell you that part!
Hard start kits have a legitimate purpose, but making your compressor last longer when it is not having trouble starting is bogus.
As to your question; yes, if you use a hard start kit intended for a larger motor, it can INCREASE that potential for excess torque damage.
answered 3 hours ago
J. RaefieldJ. Raefield
2,89328
2,89328
They also say that a worn run capacitor can make the compressor use 10-20% more electricity vs a new capacitor. Seems like if that was true, installing a new run capacitor would be a regular maintenance task like changing an air filter (albeit less frequently...). Now I'm really curious if there's any truth to the "old capacitor" logic.
– JPhi1618
3 hours ago
Just curious, how do you know so much about this? You seem to have a good understanding.
– Jeffery Thomas
2 hours ago
add a comment |
They also say that a worn run capacitor can make the compressor use 10-20% more electricity vs a new capacitor. Seems like if that was true, installing a new run capacitor would be a regular maintenance task like changing an air filter (albeit less frequently...). Now I'm really curious if there's any truth to the "old capacitor" logic.
– JPhi1618
3 hours ago
Just curious, how do you know so much about this? You seem to have a good understanding.
– Jeffery Thomas
2 hours ago
They also say that a worn run capacitor can make the compressor use 10-20% more electricity vs a new capacitor. Seems like if that was true, installing a new run capacitor would be a regular maintenance task like changing an air filter (albeit less frequently...). Now I'm really curious if there's any truth to the "old capacitor" logic.
– JPhi1618
3 hours ago
They also say that a worn run capacitor can make the compressor use 10-20% more electricity vs a new capacitor. Seems like if that was true, installing a new run capacitor would be a regular maintenance task like changing an air filter (albeit less frequently...). Now I'm really curious if there's any truth to the "old capacitor" logic.
– JPhi1618
3 hours ago
Just curious, how do you know so much about this? You seem to have a good understanding.
– Jeffery Thomas
2 hours ago
Just curious, how do you know so much about this? You seem to have a good understanding.
– Jeffery Thomas
2 hours ago
add a comment |
The starting capacitor is the largest difference in the various 5-2-1 devices. You don't want too large of a starting capacitor. You need to use the correct one for your application.
FYI: Multiply the load amps by 2,650. Divide this number by the supply voltage. The resulting number is the capacity of the capacitor you need in microfarads (µF).
add a comment |
The starting capacitor is the largest difference in the various 5-2-1 devices. You don't want too large of a starting capacitor. You need to use the correct one for your application.
FYI: Multiply the load amps by 2,650. Divide this number by the supply voltage. The resulting number is the capacity of the capacitor you need in microfarads (µF).
add a comment |
The starting capacitor is the largest difference in the various 5-2-1 devices. You don't want too large of a starting capacitor. You need to use the correct one for your application.
FYI: Multiply the load amps by 2,650. Divide this number by the supply voltage. The resulting number is the capacity of the capacitor you need in microfarads (µF).
The starting capacitor is the largest difference in the various 5-2-1 devices. You don't want too large of a starting capacitor. You need to use the correct one for your application.
FYI: Multiply the load amps by 2,650. Divide this number by the supply voltage. The resulting number is the capacity of the capacitor you need in microfarads (µF).
edited 3 hours ago
isherwood
48.3k456122
48.3k456122
answered 3 hours ago
Jerry_ContraryJerry_Contrary
2,045315
2,045315
add a comment |
add a comment |
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The capacitor is creating a phase shift, the size of the cap needs to match up with the motor size to large of a cap can cause problems also.
– Ed Beal
3 hours ago
I was curious, so I'm just going to leave this here. The 5-2-1 name comes from the standard numbering of the relay terminals on the relay this type of device uses. Similar to the terminal numbers on automotive relays (85-86-87-30).
– JPhi1618
3 hours ago
Just curious, where did you even get the idea that this is something you should do?
– R..
13 mins ago