'''IMPORTANT:''' '''That battery is for the E5270/5470/5570 - NOT the 5250.'''
There are 3 for this laptop:
* RYXXH (3 cell/38Wh)
* G5M10 (4 cell/51Wh)
* R0TMP (4 cell/62Wh)
Not sure with this one and I’m leaning more towards no. The original is 7.4V and the pack sold here is 7.6V, so it won’t work. I don’t own an E5250 (and honestly, never will unless it’s cheap and I can get the owner information or transfer done). Normally it comes from the nominal (unloaded) voltage (which is always higher). Some 3rd party packs print the nominal instead of the load voltage, but you’re still taking a chance. DON’T CHANCE IT unless you’re absolutely certain as that kills machines or at least blows a fuse and cripples it into a 12” desktop.
The only reason there is 3 is because you have 2 different configurations:
* 2.5” SATA (38Wh)
* mSATA w/interposer (51/62Wh)
-
The reason I do not own an E5240/50 and cannot confirm much beyond some research is the SSD issue - you cannot use an M.2 SSD in them because of a shortsighted decision on the Haswell platforms. If it was cheap enough even if I didn’t get the drive I could do the conversion to fix the problem at little cost to the total build price, I’d give it more then a few seconds of consideration before moving on, but it’s hard to find one that cheaply.
+
The reason I do not own an E5240/50 and cannot confirm much beyond some research is the SSD issue - you cannot use an M.2 SSD in them because of a shortsighted decision on the Haswell platforms that carried to Broadwell. If it was cheap enough even if I didn’t get the drive I could do the conversion to fix the problem at little cost to the total build price, I’d give it more then a few seconds of consideration before moving on, but it’s hard to find one that cheaply.
Once the mSATA SSD dies (which will happen EARLIER then it would with 2.5”), you need to buy a used SSD, KingSpec (no support/~$50+) or pay a lot for a Kingston mSATA (only ones left who will support the product). If you don’t want to do that, you need to downgrade the battery and reconfigure the machine to use normal 2.5” drives.
*The mSATA drives are known to have lower max TBW write limits.
'''IMPORTANT:''' '''That battery is for the E5270/5470/5570 - NOT the 5250.'''
There are 3 for this laptop:
* RYXXH (3 cell/38Wh)
* G5M10 (4 cell/51Wh)
* R0TMP (4 cell/62Wh)
Not sure with this one and I’m leaning more towards no. The original is 7.4V and the pack sold here is 7.6V, so it won’t work. I don’t own an E5250 (and honestly, never will unless it’s cheap and I can get the owner information or transfer done). Normally it comes from the nominal (unloaded) voltage (which is always higher). Some 3rd party packs print the nominal instead of the load voltage, but you’re still taking a chance. DON’T CHANCE IT unless you’re absolutely certain as that kills machines or at least blows a fuse and cripples it into a 12” desktop.
The only reason there is 3 is because you have 2 different configurations:
* 2.5” SATA (38Wh)
-
* mSATA (51/62Wh)
-
The reason I do not own an E5240/50 and cannot confirm much beyond some research is the SSD issue - you cannot use an M.2 SSD in them because of a shortsighted decision on the Haswell platforms. If it was cheap enough even if I didn’t get the drive doing the conversion to fix the problem won’t add much to the overall cost and I can transfer ownership I’d give it more then a few seconds of consideration before moving on, but it’s hard to find one that cheaply.
+
* mSATA w/interposer (51/62Wh)
+
The reason I do not own an E5240/50 and cannot confirm much beyond some research is the SSD issue - you cannot use an M.2 SSD in them because of a shortsighted decision on the Haswell platforms. If it was cheap enough even if I didn’t get the drive I could do the conversion to fix the problem at little cost to the total build price, I’d give it more then a few seconds of consideration before moving on, but it’s hard to find one that cheaply.
Once the mSATA SSD dies (which will happen EARLIER then it would with 2.5”), you need to buy a used SSD, KingSpec (no support/~$50+) or pay a lot for a Kingston mSATA (only ones left who will support the product). If you don’t want to do that, you need to downgrade the battery and reconfigure the machine to use normal 2.5” drives.
*The mSATA drives are known to have lower max TBW write limits.
'''IMPORTANT:''' '''That battery is for the E5270/5470/5570 - NOT the 5250.'''
There are 3 for this laptop:
* RYXXH (3 cell/38Wh)
* G5M10 (4 cell/51Wh)
* R0TMP (4 cell/62Wh)
-
Not sure with this one and I’m leaning more towards no. The original is 7.4V and the pack sold here is 7.6V. I don’t own an E5250 (and honestly, never will unless it’s cheap and I can get the owner information or transfer done), but I think the extra .2V may come from them using the unloaded voltage, which is always always higher. DON’T CHANCE IT unless you’re absolutely certain as that kills machines.
+
Not sure with this one and I’m leaning more towards no. The original is 7.4V and the pack sold here is 7.6V, so it won’t work. I don’t own an E5250 (and honestly, never will unless it’s cheap and I can get the owner information or transfer done). Normally it comes from the nominal (unloaded) voltage (which is always higher). Some 3rd party packs print the nominal instead of the load voltage, but you’re still taking a chance. DON’T CHANCE IT unless you’re absolutely certain as that kills machines or at least blows a fuse and cripples it into a 12” desktop.
The only reason there is 3 is because you have 2 different configurations:
* 2.5” SATA (38Wh)
-
* 51/62Wh (mSATA interposer)
-
The reason I do not own an E5250 and probably never will unless I somehow find one that’s all there for dirt cheap if I can transfer the ownership is the SSD issue. Once the mSATA SSD dies (theyall do at a worse rate then 2.5” SATA), you need to downgrade the battery and reconfigure the machine in order to use it if it shipped with that setup, buy a used mSATA SSD* or pay significantly more because Kingston is the only company left making them who will support the product - yes, the KingSpec ones work but the support isn’t there.
+
* mSATA (51/62Wh)
+
The reason I do not own an E5240/50 and cannot confirm much beyond some research is the SSD issue - you cannot use an M.2 SSD in them because of a shortsighted decision on the Haswell platforms. If it was cheap enough even if I didn’t get the drive doing the conversion to fix the problem won’t add much to the overall cost and I can transfer ownership I’d give it more then a few seconds of consideration before moving on, but it’s hard to find one that cheaply.
-
*Due to the lower TBW tolerances, bad idea unless you have to.
+
Once the mSATA SSD dies (which will happen EARLIER then it would with 2.5”), you need to buy a used SSD, KingSpec (no support/~$50+) or pay a lot for a Kingston mSATA (only ones left who will support the product). If you don’t want to do that, you need to downgrade the battery and reconfigure the machine to use normal 2.5” drives.
+
+
*The mSATA drives are known to have lower max TBW write limits.
'''IMPORTANT:''' '''That battery is for the E5270/5470/5570 - NOT the 5250.'''
+
There are 3 for this laptop:
* RYXXH (3 cell/38Wh)
* G5M10 (4 cell/51Wh)
* R0TMP (4 cell/62Wh)
Not sure with this one and I’m leaning more towards no. The original is 7.4V and the pack sold here is 7.6V. I don’t own an E5250 (and honestly, never will unless it’s cheap and I can get the owner information or transfer done), but I think the extra .2V may come from them using the unloaded voltage, which is always always higher. DON’T CHANCE IT unless you’re absolutely certain as that kills machines.
The only reason there is 3 is because you have 2 different configurations:
* 2.5” SATA (38Wh)
* 51/62Wh (mSATA interposer)
The reason I do not own an E5250 and probably never will unless I somehow find one that’s all there for dirt cheap if I can transfer the ownership is the SSD issue. Once the mSATA SSD dies (they all do at a worse rate then 2.5” SATA), you need to downgrade the battery and reconfigure the machine in order to use it if it shipped with that setup, buy a used mSATA SSD* or pay significantly more because Kingston is the only company left making them who will support the product - yes, the KingSpec ones work but the support isn’t there.
*Due to the lower TBW tolerances, bad idea unless you have to.
Not sure with this one and I’m leaning more towards no. The original is 7.4V and the pack sold here is 7.6V. I don’t own an E5250 (and honestly, never will unless it’s cheap and I can get the owner information or transfer done), but I think the extra .2V may come from them using the unloaded voltage, which is always always higher. DON’T CHANCE IT unless you’re absolutely certain as that kills machines.
-
The only reason there is 3 is because you have 2 machines out there to account for: 2.5” SATA (38Wh) and the 51/62Wh is used in conjunction with an MSATA SSD/interposer - which is why I don’t like the 12” 40/50 machines. They work and that’s all fine and dandy until the mSATA SSD dies and your choices are a used one, an overpriced new one or eWaste unless you downgrade the battery and retrofit a compatible drive in the machine.
+
The only reason there is 3 is because you have 2 different configurations:
+
+
* 2.5” SATA (38Wh)
+
* 51/62Wh (mSATA interposer)
+
The reason I do not own an E5250 and probably never will unless I somehow find one that’s all there for dirt cheap if I can transfer the ownership is the SSD issue. Once the mSATA SSD dies (they all do at a worse rate then 2.5” SATA), you need to downgrade the battery and reconfigure the machine in order to use it if it shipped with that setup, buy a used mSATA SSD* or pay significantly more because Kingston is the only company left making them who will support the product - yes, the KingSpec ones work but the support isn’t there.
+
+
*Due to the lower TBW tolerances, bad idea unless you have to.
Not sure with this one and I’m leaning more towards no. The original is 7.4V and the pack sold here is 7.6V. I don’t own an E5250 (and honestly, never will unless it’s cheap and I can get the owner information or transfer done), but I think the extra .2V may come from them using the unloaded voltage, which is always always higher. DON’T CHANCE IT unless you’re absolutely certain as that kills machines.
-
The only reason there is 3 is because you have 2 machines out there to account for: 2.5” SATA (38Wh/possibly 51Wh compatible) and the 62Wh is used in conjunction with an MSATA SSD/interposer - which is why I don’t like the 12” 40/50 machines. They work and that’s all fine and dandy until the mSATA SSD dies and your choices are a used one, an overpriced new one or eWaste.
+
The only reason there is 3 is because you have 2 machines out there to account for: 2.5” SATA (38Wh) and the 51/62Wh is used in conjunction with an MSATA SSD/interposer - which is why I don’t like the 12” 40/50 machines. They work and that’s all fine and dandy until the mSATA SSD dies and your choices are a used one, an overpriced new one or eWaste unless you downgrade the battery and retrofit a compatible drive in the machine.
Not sure with this one and I’m leaning more towards no. The original is 7.4V and the pack sold here is 7.6V. I don’t own an E5250 (and honestly, never will unless it’s cheap and I can get the owner information or transfer done), but I think the extra .2V may come from them using the unloaded voltage, which is always always higher. DON’T CHANCE IT unless you’re absolutely certain as that kills machines.
+
+
The only reason there is 3 is because you have 2 machines out there to account for: 2.5” SATA (38Wh/possibly 51Wh compatible) and the 62Wh is used in conjunction with an MSATA SSD/interposer - which is why I don’t like the 12” 40/50 machines. They work and that’s all fine and dandy until the mSATA SSD dies and your choices are a used one, an overpriced new one or eWaste.
Not sure with this one. The original is 7.4V and the pack sold here is 7.6V. I don’t own an E5250 (and honestly, never will unless it’s cheap and I can get the owner information or transfer done), but I think the extra .2V may come from them using the unloaded voltage, which is always always higher. DON’T CHANCE IT unless you’re absolutely certain as that kills machines.
+
Not sure with this one and I’m leaning more towards no. The original is 7.4V and the pack sold here is 7.6V. I don’t own an E5250 (and honestly, never will unless it’s cheap and I can get the owner information or transfer done), but I think the extra .2V may come from them using the unloaded voltage, which is always always higher. DON’T CHANCE IT unless you’re absolutely certain as that kills machines.
Not sure with this one. The original is 7.4V and the pack sold here is 7.6V. I don’t own an E5250 (and honestly, probably never will unless it uses PCIe SSDs and I can get the owner information), but I think the extra .2V may come from them using the unloaded voltage, which is always always higher. DON’T CHANCE IT unless you’re absolutely certain as that kills machines.
+
Not sure with this one. The original is 7.4V and the pack sold here is 7.6V. I don’t own an E5250 (and honestly, never will unless it’s cheap and I can get the owner information or transfer done), but I think the extra .2V may come from them using the unloaded voltage, which is always always higher. DON’T CHANCE IT unless you’re absolutely certain as that kills machines.
Not sure with this one. The original is 7.4V and the pack sold here is 7.6V. I don’t own an E5250 (and honestly, probably never will unless it uses PCIe SSDs), but I think the extra .2V may come from them using the unloaded voltage, which is always always higher. DON’T CHANCE IT unless you’re absolutely certain as that kills machines.
+
Not sure with this one. The original is 7.4V and the pack sold here is 7.6V. I don’t own an E5250 (and honestly, probably never will unless it uses PCIe SSDs and I can get the owner information), but I think the extra .2V may come from them using the unloaded voltage, which is always always higher. DON’T CHANCE IT unless you’re absolutely certain as that kills machines.
Not sure with this one. The original is 7.4V and the pack sold here is 7.6V. I don’t own an E5250 (and honestly, probably never will unless it uses PCIe SSDs), but I think the extra .2V is from them using the unloaded voltage, which is always always higher.
+
Not sure with this one. The original is 7.4V and the pack sold here is 7.6V. I don’t own an E5250 (and honestly, probably never will unless it uses PCIe SSDs), but I think the extra .2V may come from them using the unloaded voltage, which is always always higher. DON’T CHANCE IT unless you’re absolutely certain as that kills machines.
Not sure with this one. The original is 7.4V and the pack sold here is 7.6V. I don’t own an E5250, but I think the extra .2V is from them using the unloaded voltage, which is always always higher.
+
Not sure with this one. The original is 7.4V and the pack sold here is 7.6V. I don’t own an E5250 (and honestly, probably never will unless it uses PCIe SSDs), but I think the extra .2V is from them using the unloaded voltage, which is always always higher.
There are 3 for this laptop:
* RYXXH (3 cell/38Wh)
* G5M10 (4 cell/51Wh)
* R0TMP (4 cell/62Wh)
Not sure with this one. The original is 7.4V and the pack sold here is 7.6V. I don’t own an E5250, but I think the extra .2V is from them using the unloaded voltage, which is always always higher.