The Dell model you have is from their Rugged line which is not their *most* hardened model. The comparison you should be making is the Dell XFR vs. that Toughbook. Also, that Dell hard drive caddy you showed is holding a M.2 SSD (the size of a memory stick). More modern Toughbooks (you model is pretty dated) have a similar drive caddy to the Dell.
Excellent review except that he is comparing an older Toughbook with Maximum toughness with a new Dell with medium toughness (not their toughest model). This is comparing apples to oranges. A comparison of a new toughest Toughbook with a new Dell toughest would really have been ideal. The guy does know how to do a comparison video, though.
Kinda comparing apples to oranges here. That's a 5414 or 54 series Dell latitude 14 which is semi rugged (tbh it's more than that tho, it's very close to full rugged) More comparable to a Panasonic cf53. The Panasonic cf31 should be compared to the Dell Latitude 7404, 7414 Which is the fully rugged line of latitude 14.
No need for a shock protection for a SSD. Spining HDD drives do need protection. No modern PCs do not need a spinning HDD. So SSD is more rugged and more shock proof.
shock protection is still needed on SSD when your in a natural gas environment. Panasonic makes their devices intrinsically safe from the factory and then they slap on a ansi sticker, Dell rugged is special order for intrinsically safe.
Shock protection is not so much for the SSD itself, but rather for SATA connector. Most laptops' SATA data/power connector is rigidly fit onto a motherboard, and SSD connected to it. If you look at the disk caddies used in toughbooks, the connector from caddy to motherboard is flexible. This prevents damaging SATA data/power interface on the SSD.
The main reason many people buy these devices is the fact that their manufacturers still make them to be easily repairable.
The Dell model you have is from their Rugged line which is not their *most* hardened model. The comparison you should be making is the Dell XFR vs. that Toughbook. Also, that Dell hard drive caddy you showed is holding a M.2 SSD (the size of a memory stick). More modern Toughbooks (you model is pretty dated) have a similar drive caddy to the Dell.
Excellent review except that he is comparing an older Toughbook with Maximum toughness with a new Dell with medium toughness (not their toughest model). This is comparing apples to oranges. A comparison of a new toughest Toughbook with a new Dell toughest would really have been ideal. The guy does know how to do a comparison video, though.
So which u prefer...the dell or the panasonic??
What kind of fish you catching?
Kinda comparing apples to oranges here.
That's a 5414 or 54 series Dell latitude 14 which is semi rugged (tbh it's more than that tho, it's very close to full rugged)
More comparable to a Panasonic cf53.
The Panasonic cf31 should be compared to the Dell Latitude 7404, 7414
Which is the fully rugged line of latitude 14.
Dude you need to state what models these are!
He did lol
merci beaucoup
I know I'm kind of randomly asking but does anybody know a good site to watch new series online?
@Gunnar David ehh I use flixportal. You can find it by googling :P -eden
@Eden Jaxon Thank you, signed up and it seems like a nice service =) I appreciate it !
@Gunnar David No problem xD
What is the difference between these and the XFR?
I think the XFR is more rugged.
I don’t know how to explain this but the Toughbook is Army vibe and the Dell rugged is Navy seal vibe.
No need for a shock protection for a SSD. Spining HDD drives do need protection. No modern PCs do not need a spinning HDD. So SSD is more rugged and more shock proof.
shock protection is still needed on SSD when your in a natural gas environment. Panasonic makes their devices intrinsically safe from the factory and then they slap on a ansi sticker, Dell rugged is special order for intrinsically safe.
@@MartinPCI Curious to know why shock protection is needed on an SSD in a natural gas environment.
Shock protection is not so much for the SSD itself, but rather for SATA connector. Most laptops' SATA data/power connector is rigidly fit onto a motherboard, and SSD connected to it. If you look at the disk caddies used in toughbooks, the connector from caddy to motherboard is flexible. This prevents damaging SATA data/power interface on the SSD.
Dude you gotta stop just saying this one you gotta specify what the model is the whole video is unclear what model he's talking about
Panasonic cf-31 and Dell 5414
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