Machine Type

• T450s 3rd M.2 Ssd Slot Software
• T450s 3rd M.2 Ssd Slot Machine
• T450s 3rd M.2 Ssd Slot Driver
• T450s 3rd M.2 Ssd Slot Drive

T450s 3rd M.2 Ssd Slot Software

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T450s 3rd M.2 Ssd Slot Machine

• Broadwell: 20BW, 20BX

Sep 13, 2016  The T450's that do come with an SSD are using the Samsung PM851 SSD (according to the web) which is mSATA interface and not M.2 as you mentioned above. These are 2 different form factors. The photos you posted above are for M.2 slots and are not comparable with your laptop.

Standard Features

Dimensions:

• Size:
  • Models without touchscreen: 331mm x 226mm x 20.6mm (13.0' x 8.90' x 0.81')
  • Models with touchscreen: 331mm x 226mm x 22.9mm (13.0' x 8.90' x 0.90')
• Weight:
  • Starts from 1.32kg (2.9lbs) with only external 3-cell Li-ion battery (23Wh)
  • Discrete GPU option adds 0.24kg (0.53lbs)
  • Internal battery option (3-cell Li-polymer, 23Wh) adds 0.11kg (0.24lbs)
  • 6-cell external battery option (Li-ion, 48Wh) adds 0.18kg (0.40lbs)
  • 6-cell external battery option (Li-ion, 72Wh) adds 0.18kg (0.40lbs)

Color:

T450s 3rd M.2 Ssd Slot Driver

• Black

Features:

• CPU: one of the following ULV processors
  • Intel Core i5-5200U, 2.2 - 2.7 GHz, 3MB Cache
  • Intel Core i5-5300U, 2.3 - 2.9 GHz, 3MB Cache
  • Intel Core i7-5600U with vPro, 2.6 - 3.2 GHz, 4MB Cache

• RAM:
  • 4GB DDR3L-1600 (PC3L-12800) soldered to the systemboard
  • One free socket supporting up to 8GB DDR3L SO-DIMM

• GPU:
  • Intel HD Graphics 5500 integrated into CPU

• Maximum supported resolution on external monitor:
  • 3840x2160@60Hz via mDP
  • 1920x1200@60Hz via VGA

• Display: one of the following IPS anti-glare displays with LED backlight, 700:1 contrast ratio and 160° viewing angle
  • 14.0' 1600x900 ('HD+'), 250 nits, 400:1 contrast ratio
  • 14.0' 1920x1080 ('FHD'), 300 nits, 700:1 contrast ratio
  • Multitouch option available

• Storage: one of the following
  • SATA 3 SSD, 7mm high
  • SATA 3 HDD, 7mm / 9mm high
  • SATA 3 SSHD
  • Optional M.2 SSD

• M.2 slot with one of the following
  • Thinkpad 11b/g/n 2x2 Wi-Fi + Bluetooth combo adapter
  • Intel Wireless-N 7265 2x2 Wi-Fi + Bluetooth card
  • Intel Dual Band Wireless-N 7265 2x2 Wi-Fi + Bluetooth card
  • Intel Dual Band Wireless-N 7265 2x2 Wi-Fi + Bluetooth card

• M.2 slot with one of the following options
  • Ericsson® N5321 WWAN card with HSPA+ 21Mbps/GSM/GPRS/EDGE and GPS
  • Sierra Wireless EM7345 WWAN card with 4G LTE/HSPA/GSM/GPRS/EDGE and GPS

• • Qualcomm Snapdragon X7 LTE-A (Sierra Wireless EM7455), LTE-Advanced/DC-HSPA+/HSPA+/HSPA/UMTS/GNSS

• SIM card slot

• Ethernet: one of the following
  • Intel I219-V
  • Intel I219-LM (vPro models)

• 720p HD Integrated camera

• Batteries:
  • 3-cell internal Li-ion battery, 23Wh (option)
  • 3-cell external Li-ion battery, 23Wh
  • 6-cell external Li-ion battery, 48Wh (option)
  • 6-cell external Li-ion battery, 72Wh (option)

• Power adapter: one of the following with slim Lenovo charging port
  • 45W AC adapter
  • 65W Slim AC adapter
  • 65W AC adapter

• Security features
  • Kensington lock slot
  • TPM module
  • Integrated Fingerprint Reader (optional)

• Pointing devices
  • TrackPoint (with 3 physical buttons)
  • UltraNav touch pad

Resources

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T450s 3rd M.2 Ssd Slot Drive

Most solid-state drives released within the last year or so have been too fast for the bus they're connected to. The 6Gbps SATA III spec was finalized in the days when rotational hard drives still ruled and SSDs were rare, ludicrously expensive, and relatively unreliable.

There are a couple of different standards that have been created to solve this problem, and they both solve it in the same basic way. One, SATA Express, uses the same physical connector as older SATA drives but uses PCI Express lanes rather than the SATA bus to boost storage speeds. The other, which will be more common in space-constrained mini-desktops, all-in-ones, and Ultrabooks, is called M.2 (previously NGFF, for 'Next-Generation Form Factor').

M.2 is interesting not just because it can speed up storage with PCI Express lanes, but because it can use a whole bunch of different buses too; it stands to replace both mSATA and mini PCI Express, two older standards that have been used for SSDs and Wi-Fi cards in laptops for a while now. Intel's new Broadwell CPUs and their chipsets include native support for M.2 and PCI Express boot drivers—neither PCIe-connected storage (hi Apple) nor the M.2 connector itself are new, but beginning with Broadwell systems each of those two things will become much more common.

Let's start with the physical connector and the things that connect to it. There's a lot to unpack, starting with the fact that there's more than one kind of M.2 connector, more than one type of interface that can be used with M.2, and more than one kind of M.2 card.

Getting to know M.2

Pictured at the top of this article are four different M.2 cards. The one on the left is a combo Wi-Fi and Bluetooth card. The next one to the right is a Sandisk SSD that uses the SATA bus. The next one is an Intel SSD that also uses SATA. The one on the right is a Samsung SSD that can use up to four PCI Express lanes.

Pay attention to two things as you compare and contrast these cards. First, the physical connector on each card is different; each card has different cutouts in the bottom and exposes different pins. Second, the cards are of different lengths and widths. All of this is accounted for in the M.2 spec (PDF).

The different connectors signify different M.2 'module keys.' Each key exposes a different set of interfaces to each card—M.2 can connect directly to the PCI Express bus, but different pins can be used to connect to the USB 2.0 and 3.0 buses, SATA III, DisplayPort, and a variety of other less-prevalent storage buses. Cards with one notch at the bottom are keyed for one specific kind of connector. Cards with two notches can be used in two different kinds of connectors.

Above is a picture of two M.2 slots on the motherboard of an HP Stream Mini. The slot on the left uses module key E, and the one on the right uses module key B. The Wi-Fi card is keyed for slots A and E, so it fits in the left slot with no problems. The Intel SSD is keyed for slots B and M, so it fits in the right slot. The Samsung SSD is keyed for slot M, so it won't fit in either of the Stream's slots.

The table above lays out the keys in common use today—there are others, mostly placeholders to be called into service as newer buses and interfaces are introduced.

Note the four- or five-digit numbers paired with each slot. These are actually codes to refer to the physical dimensions of each card; the first two digits specify the width in millimeters and the second two or three digits specify the length. Our Wi-Fi module is 16mm wide and 30mm long, or 1630. Two of our SSDs are 22mm wide and 80mm long, or 2280. The other SSD is 22mm wide and 42mm long, or 2242. All motherboard slots are 22mm in width, even the ones attached to 30mm-wide cards.

All current keys can give cards access to two PCI Express lanes, but otherwise interface compatibility is all over the place—so far, it's been pretty easy to guess what kind of peripheral you're dealing with based on the key it uses. Wi-Fi and WWAN cards tend to use keys A and/or E, since they only need the PCI Express or USB 2.0 buses and only need 30mm in length to fit all their key components. SATA SSDs and SSDs that use two PCI Express lanes tend to use keys B and M to maximize compatibility, since both connectors can deliver both SATA III and two PCIe lanes. The very fastest SSDs tend to be M-keyed since it's the only one that delivers four PCIe lanes.

This is a lot to digest, but it's most of what you need to know to understand M.2. There are some other stipulations around the physical thickness of the cards that you can read about in the documentation, but they aren't as important to our discussion today.

The key system isn't always foolproof—our A- and E-keyed Wi-Fi module will physically fit into the B-keyed SSD slot even though the computer won't recognize it there. M.2 is certainly more confusing than the mPCIe and mSATA specs, but in the end it's more flexible. Components can access many different buses through one small internal connector, and you've got a lot of different physical card sizes to play with instead of being tied to either a 'full-height' or 'half-height' card.

The worst thing about M.2 right now is a general scarcity of components. OEMs buying parts directly from manufacturers probably have more choices, end users buying M.2 cards from Newegg or Amazon will find that they have few options, especially compared to the selection of mSATA and mPCIe components. That will change as M.2 goes mainstream and those older connectors begin to fade. Broadwell is a big step forward in that transition.