Crucial

Crucial CT240BX500SSD1Z 240GB SATA 3D NAND Internal SSD

4.8 (35854 reviews)

540MB/s sequential reads on a SATA budget — the BX500 240GB turns sluggish boot drives into responsive everyday workhorses.

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Overview

The Crucial BX500 CT240BX500SSD1Z delivers up to 540MB/s sequential reads and up to 500MB/s sequential writes over a SATA III (6Gb/s) interface, housed in a standard 2.5-inch, 7mm form factor. Those read speeds represent a roughly 4–5x improvement over a 7200RPM mechanical drive, which is the real-world delta that transforms a system's perceived responsiveness — OS boot drops from 45–60 seconds to under 15, application launches become near-instant, and file copy operations that once took minutes complete in seconds. The drive uses 3D NAND, where memory cells are vertically stacked to achieve greater density and longevity compared to planar NAND at equivalent price points, and carries an 80 TBW endurance rating suitable for sustained daily use over multiple years.

The BX500 is squarely aimed at the upgrade market: users replacing a failing or slow HDD in an older laptop or desktop who want a meaningful performance gain without the cost or platform requirements of NVMe. It's a strong fit for secondary machines, home office workstations, media center PCs, and student laptops. Where it reaches its limits is in builds that demand high sustained write throughput — video editing scratch drives, NAS applications, or any workflow pushing large sequential writes repeatedly — where the constrained SLC cache will expose the underlying TLC write speeds. For those use cases, Crucial's MX500 or a PCIe NVMe drive is the appropriate step up. Within its designed scope, the BX500 is a well-executed, no-frills SATA SSD.

Specifications

Capacity
240GB
Form Factor
2.5-inch, 7mm height
Interface
SATA III (6Gb/s), backward compatible with SATA II
NAND Technology
3D NAND (TLC)
Sequential Read
Up to 540 MB/s
Endurance (TBW)
80 TBW
Brand
Crucial
Model
CT240BX500SSD1Z

Crucial BX500 1TB vs MX500 vs P3 — Which Crucial SSD Is Right?

The Crucial BX500 (CT1000BX500SSD1) is Crucial's entry-tier 2.5-inch SATA SSD — the cheapest path from a 1 TB HDD to a 1 TB SSD on any PC with a SATA bay. Per Crucial's official BX500 product page, the drive ships in a 7 mm 2.5-inch form factor with the company's standard 3-year warranty. The BX500 is best understood by comparing it against its two natural upgrade targets — the DRAM-equipped MX500 (still SATA) and the PCIe Gen3 NVMe P3 (M.2 slot required). This module walks through the trade-offs so buyers can match the drive to the host system and workload.

The Three-Way Comparison at a Glance

Spec BX500 1TB MX500 1TB (SATA upgrade) P3 1TB (NVMe step-up)
Interface SATA III (6 Gb/s) SATA III (6 Gb/s) PCIe 3.0 x4 NVMe
Form factor 2.5" 7 mm 2.5" 7 mm or M.2 2280 (SATA) M.2 2280 NVMe
Sequential read 540 MB/s rated 560 MB/s rated 3,500 MB/s rated
Sequential write 500 MB/s rated 510 MB/s rated 3,000 MB/s rated
DRAM cache None (DRAM-less) Yes (DRAM-equipped) None (HMB via PCIe)
NAND 3D TLC/QLC (varies) 3D TLC 176-layer 3D NAND
Endurance (TBW) 120 TBW @ 1 TB 360 TBW @ 1 TB 220 TBW @ 1 TB
Warranty 3-year limited 5-year limited 5-year limited

What the BX500 Specifically Wins

The BX500 has the lowest entry price in Crucial's SATA SSD line and the broadest host-compatibility profile — any desktop with a free 2.5-inch drive bay or any laptop with a 2.5-inch SATA bay accepts it without a motherboard or BIOS check. For a buyer whose primary goal is replacing a spinning HDD on an older system (Intel 4th-gen Core, AMD A-series, anything that predates widespread M.2 NVMe adoption), the BX500 is the right tier. Per Crucial's BX500 product page, the drive ships with the Acronis True Image cloning utility, making the HDD-to-SSD migration a one-tool, one-click process.

Tom's Hardware on the DRAM-Less Trade-Off

Tom's Hardware's Crucial BX500 review documents the DRAM-less architecture's most visible limitation: sustained-write performance drops to approximately 100 MB/s once the on-drive SLC cache is exhausted. For typical desktop loads (boot drive + office apps + the occasional 50 GB game install), the SLC cache absorbs the workload and the drive runs at its rated ~500 MB/s. For sustained-write workloads (video-editing scratch, multi-hundred-GB cloud-sync downloads, large database imports), the post-cache slowdown is significant. Tom's Hardware's overall recommendation: the BX500 is a competent HDD replacement, but for a few dollars more the MX500 delivers materially better real-world performance.

When the MX500 Is the Right Step-Up

Per Crucial's MX500 product page, the MX500 carries Micron's full-featured SATA SSD package: full DRAM cache (typically 1 GB DRAM on the 1 TB model), 360 TBW endurance, AES-256 hardware encryption, Opal 2.0 management, and Crucial's 5-year limited warranty. The MX500 is the right pick when:

  • The host system has a 2.5-inch SATA bay but no M.2 NVMe slot, AND the workload is more than light desktop use
  • The user wants AES-256 hardware encryption for confidential data (not available on the BX500)
  • The user values the longer 5-year warranty + higher TBW endurance for a primary system drive
  • The price gap to the BX500 has shrunk to less than 15-20%, which is typical at the 1 TB tier

The MX500 also has an M.2 2280 SATA variant (CT1000MX500SSD4), which fits in an M.2 slot but still runs at SATA speeds — useful for laptops that only have an M.2 slot but lack NVMe support.

When the P3 Is the Right Step-Up

If the host system has a free M.2 NVMe slot (any modern desktop motherboard, any laptop from 2018 onward with M.2 PCIe support), the P3 is the higher-value choice at similar 1 TB price points. Per Crucial's P3 product page, the P3 1 TB runs PCIe 3.0 x4 NVMe with 3,500 MB/s read and 3,000 MB/s write, with 176-layer Micron 3D NAND and 1.5 million hours MTTF. Tom's Hardware's Crucial P3 review positions the P3 as a "solid secondary SSD" — meaning the P3 is well-suited as a games / storage drive on systems where a faster Gen4 NVMe handles the OS, but it is also a sound primary OS drive for users coming from any HDD or SATA SSD.

The headline takeaway: the P3's sequential bandwidth is approximately 6-7x the BX500's rated SATA III ceiling. For boot times, large file transfers, and game-load times, this difference is visible — though for routine desktop use (web, office, video playback) most users will not notice the gap once they have already upgraded from an HDD.

Honest Cons Across the Three Tiers

  • BX500 endurance is meaningfully lower. 120 TBW at 1 TB is roughly one-third of the MX500's 360 TBW for the same capacity. For most consumer use this is still many years of write cycles, but for high-write workloads (database, video scratch, NAS), the BX500 is undersized
  • BX500 lacks AES-256 hardware encryption. Per Crucial's specifications, AES-256 + Opal 2.0 are available on the MX500 but not on the BX500. Buyers needing per-drive hardware encryption for confidential content should step up to the MX500 or use host-OS-level encryption (BitLocker, FileVault) on top of the BX500
  • P3 requires an M.2 NVMe slot. Older systems (pre-2017 desktops, many sub-$400 laptops) have only SATA support and cannot accept the P3. The host system's motherboard manual is the source of truth — confirm M.2 PCIe NVMe support before buying
  • P3 is Gen3, not Gen4. The P3 is one PCIe generation behind current-mainstream Gen4 drives. For host systems with Gen4 slots, the P3 Plus (CT1000P3PSSD8) is the same product line on Gen4 with ~5,000 MB/s read for similar pricing. The P3 is appropriate when the host motherboard is Gen3-only (no Gen4 slot exists)
  • MX500 is the same SATA III ceiling as the BX500. Buyers who already have a SATA SSD and are upgrading should NOT step from BX500 to MX500 (still SATA, still ~550 MB/s ceiling) — they should step to NVMe instead

Upgrade Verdict by Buyer Profile

  • Replacing an HDD on an older PC with no M.2 NVMe slot → BX500 is the right tier. Cheapest path to SSD performance; the host bottlenecks at SATA III regardless
  • Replacing an HDD on a system with an M.2 NVMe slot → P3 instead of BX500. Same price tier, NVMe speeds make the upgrade more meaningful
  • Primary OS drive for moderate-to-heavy daily use on a SATA-only system → MX500. The DRAM cache, higher endurance, AES-256, and 5-year warranty justify the small premium over BX500
  • Adding a secondary drive for games/storage on a modern system → P3 if the motherboard has a free M.2 slot (better cost-per-GB than SATA), BX500 only if all M.2 slots are filled
  • Laptop with M.2 SATA-only slot (not NVMe) → MX500 M.2 SATA variant (CT1000MX500SSD4), since the P3 won't physically be recognized as bootable

Sources & Citations

  1. Crucial, "BX500 1TB 3D NAND SATA 2.5-inch SSD — CT1000BX500SSD1," crucial.com (accessed 2026-05-17)
  2. Crucial, "MX500 500GB 3D NAND SATA 2.5-inch SSD — CT500MX500SSD1," crucial.com (accessed 2026-05-17)
  3. Crucial, "P3 1TB PCIe M.2 2280 SSD — CT1000P3SSD8," crucial.com (accessed 2026-05-17)
  4. Tom's Hardware, "Crucial BX500 SSD Review: The DRAMless Invasion Continues," tomshardware.com (accessed 2026-05-17)
  5. Tom's Hardware, "Crucial P3 SSD Review: Solid Secondary SSD," tomshardware.com (accessed 2026-05-17)

Last verified: 2026-05-17

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Pros & Cons

👍 Pros

  • Sequential read speeds up to 540MB/s over SATA III deliver 4–5x the throughput of a typical 7200RPM hard drive for dramatically faster boot and load times.
  • 3D NAND stacking improves bit density per die, contributing to the 80 TBW endurance rating at a price point well below MLC-based competitors.
  • 2.5-inch, 7mm form factor provides broad compatibility across desktops, laptops, and external enclosure upgrades without adapters.
  • SATA II backward compatibility means it functions as a drop-in upgrade for legacy systems still running mechanical drives.
  • Low active power draw reduces heat output in compact chassis where thermal headroom is limited.

👎 Cons

  • No hardware encryption (TCG Opal/AES) limits deployment in enterprise or compliance-sensitive environments where at-rest encryption is required.
  • SLC write cache on the 240GB model is modest; sustained large-file writes — video transfers, full-drive backups — will throttle to uncached TLC speeds.
  • 240GB capacity fills quickly on a primary OS drive once applications, games, and user data are factored in; most users will bump against this limit within a year.
  • No NVMe interface — SATA III's 600MB/s ceiling means this drive cannot approach the multi-gigabyte speeds of PCIe-based alternatives.

Frequently Asked Questions

The BX500 uses 3D TLC NAND. At 240GB, the SLC write cache is relatively small, so sustained sequential writes on large file transfers will drop off after the cache fills. For typical OS and application workloads — boot, app launches, file opens — this limitation is rarely encountered.
Yes. The BX500 is backward compatible with SATA II (3Gb/s) ports. You'll see reduced peak throughput compared to the rated SATA III figures, but it will still vastly outperform any spinning hard drive in that system.
No. The BX500 does not support TCG Opal or AES hardware encryption. If drive-level encryption is a requirement for your workflow, you'll need to step up to Crucial's MX series.
Crucial rates the 240GB BX500 at 80 TBW (terabytes written). For a typical home or office user writing 10–20GB per day, that translates to over a decade of rated endurance.
Yes. The BX500 uses the standard 2.5-inch, 7mm height form factor. Most laptops with a 2.5-inch drive bay accept it directly; a 7mm-to-9.5mm spacer is included with some retail packaging for older bays with extra clearance.