Intel Corporation introduced the first commercial NOR type flash chip in 1988. NOR-based flash has long erase and write times, but provides full address and data buses, allowing random access to any memory location. This makes it a suitable replacement for older read-only memory (ROM) chips, which are used to store program code that rarely needs to be updated, such as a computer’s BIOS or the firmware of set-top boxes. Its endurance may be from as little as 100 erase cycles for an on-chip flash memory, to a more typical 10,000 or 100,000 erase cycles, up to 1,000,000 erase cycles. NOR-based flash was the basis of early flash-based removable media; CompactFlash was originally based on it, though later cards moved to less expensive NAND flash.
I’m not a tech wiz but I’m by no means a complete moron when it comes to technology but I was somewhat distressed to find how little I knew about memory cards. I had received one with a little no frills digital camera a few years ago & had used them already but a recent faux pas brought my ignorance to light. I was at one of my daughter’s competitions with my little Panasonic video camera intending to record her show (she does color guard). We had bought the video camera a couple of years ago. It needed a memory card so I just took the one out of my other camera thinking that’s what I needed. Here’s where not realizing the difference between MB and GB ruined my plans.Trying to record the show, I kept getting the message that the memory was full. Turns out… The card was just 512MB! Those of you in the know are laughing I’m sure…yep, that may be fine for photos but NOT video..So after finding out 1 GB is roughly the same as 1000 MB, I knew what to look for. This card has a good amount of memory. I’ve recorded several of my daughter’s routines and still show as having just under half the memory available. I also have found that you get what you pay for. I bought a generic card that didn’t work and another that got corrupted quickly so I only trust SanDisk now! My next step is getting a 32GB and having a backup card at all times!
Recommendation: If you are inexperienced with updating Micro SD Card Reader device drivers manually, we highly recommend downloading the Micro SD Card Reader Driver Utility. This tool will download and update the correct Micro SD Card Reader driver versions automatically, protecting you against installing the wrong Micro SD Card Reader drivers.
Flash memory was first introduced in 1980 and developed by Dr. Fujio Masuoka, an inventor and mid level factory manager at Toshiba Corporation (TOSBF). Flash memory was named after its capability to erase a block of data “”in a flash.” Dr. Masuoka’s objective was to create a memory chip preserving data when the power was turned off. Dr. Masuoka also invented a type of memory known as SAMOS and developed a 1Mb dynamic random access memory (DRAM). In 1988, Intel Corporation produced the first commercial NOR-type flash chip, which replaced the permanent read-only memory (ROM) chip on PC motherboards containing the basic input/output operating system (BIOS).
Secure Digital cards are ubiquitous in consumer electronic devices and have become the dominant means of storing several gigabytes of data in a small form factor. This new device is extremely compact but big on compatibility within the SD memory card family. The unit supports the very latest in memory card format, SDXC (Secure Digital Extended Capacity).
Works very well for a third party GC memory card. Used it for about a week and not a single game file has corrupted. If you’re looking for a 1019 block GC memory card but don’t want to shell out the $20, this is what you’re looking for.
Flash memory evolved from erasable programmable read-only memory (EPROM) and electrically erasable programmable read-only memory (EEPROM). Flash is technically a variant of EEPROM, but the industry reserves the term EEPROM for byte-level erasable memory and applies the term flash memory to larger block-level erasable memory.
NAND flash has reduced erase and write times, and requires less chip area per cell, thus allowing greater storage density and lower cost per bit than NOR flash; it also has up to 10 times the endurance of NOR flash. However, the I/O interface of NAND flash does not provide a random-access external address bus. Rather, data must be read on a block-wise basis, with typical block sizes of hundreds to thousands of bits. This makes NAND flash unsuitable as a drop-in replacement for program ROM, since most microprocessors and microcontrollers require byte-level random access. In this regard, NAND flash is similar to other secondary data storage devices, such as hard disks and optical media, and is thus highly suitable for use in mass-storage devices, such as memory cards. The first NAND-based removable media format was SmartMedia in 1995, and many others have followed, including:
I think it’s pretty cool you can use standard SD and Micro SD in it, but I opted to use my 16GB Micro SDHC from my old phone because standard SD sticks WAY out (be sure to insert the Micro SD upside down). The Micro SD still sticks out from the side of the reader about 1/4″, and I’m curious to know why they couldn’t have designed the reader to accept Micro SD from the rear of it so you won’t accidentally tug on it when inserting/removing the reader.
I just bought this SD card reader to transfer the photos from my Nikon D3100 to my iPhone 6s and it works flawlessly. I was a bit apprehensive as most of the re I just bought this SD card reader to transfer the photos from my Nikon D3100 to my iPhone 6s and it works flawlessly. I was a bit apprehensive as most of the reviews on Amazon about this product stated that it works only with the iPad. However I have tested the same and it does work with iPhone 6s. More(Read full review)
Wirecutter is a list of of the best gear and gadgets for people who want to save the time and stress of figuring out what to buy. Their recommendations are made through vigorous reporting, interviewing, and testing by teams of veteran journalists, scientists, and researchers.
Later versions state (at Section 4.3.2) that a 2 GB SDSC card shall set its READ_BL_LEN (and WRITE_BL_LEN) to indicate 1024 bytes, so that the above computation correctly reports the card’s capacity; but that, for consistency, the host device shall not request (by CMD16) block lengths over 512bytes.
In flash memory, each memory cell resembles a standard MOSFET, except that the transistor has two gates instead of one. On top is the control gate (CG), as in other MOS transistors, but below this there is a floating gate (FG) insulated all around by an oxide layer. The FG is interposed between the CG and the MOSFET channel. Because the FG is electrically isolated by its insulating layer, electrons placed on it are trapped until they are removed by another application of electric field (e.g. Applied voltage or UV as in EPROM). Counter-intuitively, placing electrons on the FG sets the transistor to the logical “0” state. Once the FG is charged, the electrons in it screen (partially cancel) the electric field from the CG, thus, increasing the threshold voltage (VT1) of the cell. This means that now a higher voltage (VT2) must be applied to the CG to make the channel conductive. In order to read a value from the transistor, an intermediate voltage between the threshold voltages (VT1 & VT2) is applied to the CG. If the channel conducts at this intermediate voltage, the FG must be uncharged (if it was charged, we would not get conduction because the intermediate voltage is less than VT2), and hence, a logical “1” is stored in the gate. If the channel does not conduct at the intermediate voltage, it indicates that the FG is charged, and hence, a logical “0” is stored in the gate. The presence of a logical “0” or “1” is sensed by determining whether there is current flowing through the transistor when the intermediate voltage is asserted on the CG. In a multi-level cell device, which stores more than one bit per cell, the amount of current flow is sensed (rather than simply its presence or absence), in order to determine more precisely the level of charge on the FG.
EPROM and EEPROM cells operate similarly to flash memory in how data is written, or programmed, but differ from flash memory in how data is erased. An EPROM is erased by removing the chip from the system and exposing the array to ultraviolet light. An EEPROM erases data electronically at the byte level, while flash memory erases data electronically at the block level.
Doubling the storage space of the 16GB variety, the Sandisk Extreme Pro 32GB features the same high-speed spec, but with even more space. Perfect for the avid videographer shooting lots of high quality videos, at a great price.
The first thing to consider when getting a memory card is where you’re going to use it. Different cameras, camcorders, and smartphones use different sizes of card, and while you can start with the smallest and use adapters to work your way up, it’s generally best to use the card size intended for the device.
The GameCube is unable to play games from other Nintendo home consoles, but with the Game Boy Player attachment, it is able to play Game Boy, Game Boy Color, and Game Boy Advance games. The GameCube’s successor, the Wii, supports backward compatibility with GameCube controllers, memory cards, and games. However, later versions of the Wii – including the “Family Edition” released in 2011 and the Wii Mini edition released in 2012 – dropped support for all GameCube hardware.
Flash is the least expensive form of semiconductor memory. Unlike dynamic random access memory (DRAM) and static RAM (SRAM), flash memory is nonvolatile, offers lower power consumption and can be erased in large blocks. Also, on the plus side, NOR flash offers fast random reads, while NAND flash is fast with serial reads and writes.
The low-level interface to flash memory chips differs from those of other memory types such as DRAM, ROM, and EEPROM, which support bit-alterability (both zero to one and one to zero) and random access via externally accessible address buses.
Channel hot-electron injection, also known as hot-carrier injection, enables electrons to break through the gate oxide and change the threshold voltage of the floating gate. This breakthrough occurs when electrons acquire a sufficient amount of energy from the high current in the channel and the attracting charge on the control gate.
Will Greenwald has been covering consumer technology for a decade, and has served on the editorial staffs of CNET.com, Sound & Vision, and Maximum PC. His work and analysis has been seen in GamePro, Tested.com, Geek.com, and several other publications. He currently covers consumer electronics in the PC Labs as the in-house home entertainment expert… See Full Bio
I bought this card for my Samsung Galaxy S II (T-Mobile T-989) and couldn’t be happier. I’ve got about 15 games, 10 apps, and 200+ songs on it and barely put a dent in it. The speed is also amazing…real fast. I work in a very dusty construction type environment in Michigan, outdoors, year-round, so the durability is also a nice plus. Water resistant (submersed) for up to 72 hrs and temp range of -13 to 185. Sandisk really got it right with this one.
I have had the same problem with my Dell XPS L502x but the SD card reader will read the slow cards 4gb but when I put a 32 GB xtream it will not read so I have to use a USB card reader , I also have trouble now with the integrated web-cam this will not work through the Windows applications but have done a test online and it works, I have tried bios upgrades and there are no updates on the drives so like we all have been left high and dry !!
xD cards are simply 18-pin NAND flash chips in a special package and support the standard command set for raw NAND flash access. Although the raw hardware interface to xD cards is well understood, the layout of its memory contents—necessary for interoperability with xD card readers and digital cameras—is totally undocumented. The consortium that licenses xD cards has not released any technical information to the public.
In our SD card test, the Unitek had read and write speeds of 92 MB/s and 85 MB/s respectively, which is about what we expect for our test SD card on a UHS-I connection. When reading and writing to the microSD card, it had speeds of 92 MB/s and 70 MB/s, and in our CF card test, the Unitek had read and write speeds of 154 MB/s and 144 MB/s, respectively. (These speeds also matched our expectations.) It can also read two cards simultaneously, although we noticed a significant drop in performance: Running an SD and a microSD card at the same time gave us read and write speeds of 59 MB/s and 49 MB/s, respectively. But otherwise the Unitek worked as it should, which isn’t something we can say about many of the card readers we tested.
Anyway, Brand stand for good quality and reasonable price, Such as, SanDisk, Samsung, Toshiba, Kingston and Toshiba and other famous brands. all of them will not hurt you to pay a little premium. You will reap the rewards. Some of them like SanDisk offer lifelong limited warranty and waterproof and shockproof features, which are very useful if you plan to use your memory card longer and do not want your data corrupted.
I searched for advice on how to fix this – consensus seemed to be to uninstall the SDA driver and reinstall it. Fine – except I cannot find a place to download the driver! I have an integrated SD Card reader in my ASUS X012B Notebook PC
Jump up ^ Tadashi Yasufuku et al., “Inductor and TSV Design of 20-V Boost Converter for Low Power 3D Solid State Drive with NAND Flash Memories” Archived 4 February 2016 at the Wayback Machine.. 2010.
Kingston offers Flash drives designed for and certified by Microsoft® for use with Windows® To Go. A feature of Windows 8 Enterprise, Windows to Go lets IT administrators provide mobile and contingency workers with secure access to the corporate environment.
Interesting that you mention it’s not compatible with Windows 10. I’m looking for a new SD/CF card reader because my Lexar reader (the one previously recommended here) keeps connecting and disconnecting from my new Windows 10 desktop. Fortunately, it doesn’t do that when reading a card. Your post makes me wonder if Lexar readers have an issue with Win 10.
Reformatting an SD card with a different file system, or even with the same one, may make the card slower, or shorten its lifespan. Some cards use wear leveling, in which frequently modified blocks are mapped to different portions of memory at different times, and some wear-leveling algorithms are designed for the access patterns typical of FAT12, FAT16 or FAT32. In addition, the preformatted file system may use a cluster size that matches the erase region of the physical memory on the card; reformatting may change the cluster size and make writes less efficient.
Not sure what the difference is between a £50 Class 2 SD and a £450 Class 10 SDHC memory card? We’ve split them up into their categories and broken down the speed jargon by translating it into real speed ratings so you can decide if a certain memory card is worth the extra money.
I see 1-Star reviews being posted for this same card. Take the time to assure BEFORE you Click “Add to Cart” that your source is “SOLD BY SANDISK, FULFILLED BY AMAZON.” BUY FROM OTHER SOURCES AND YOU MAY GET BURNED*
The speed class rating was based on request from movie and video companies, as video recording in different formats and resolutions requires certain write speeds when recording to the card. As a result, the goal of the class ratings is to allow consumers to easily identify cards that meet the minimum level of required performance based on their use or application of the host device. Below is a listing of typical applications for each speed class.
At initial power-up or card insertion, the host device selects either the Serial Peripheral Interface (SPI) bus or the one-bit SD bus by the voltage level present on Pin 1. Thereafter, the host device may issue a command to switch to the four-bit SD bus interface, if the SD card supports it. For various card types, support for the four-bit SD bus is either optional or mandatory.
After researching all the USB-C SD readers available, we called in 12 models that met our requirements by accessories makers we trust. Then we plugged them into a 2016 MacBook Pro and a 2016 Dell XPS 13 and used AJA System Test and CrystalDiskMark to test their speeds with three SanDisk cards–one SD card, one microSD card, and one CF card.
microSD is a type of removable flash memory card used for storing information. SD is an abbreviation of Secure Digital, and microSD cards are sometimes referred to as µSD or uSD. The cards are used in mobile phones and other mobile devices.
A flash memory chip is composed of NOR or NAND gates. NOR is a type of memory cell created by Intel in 1988. The NOR gate interface supports full addresses, data buses and random access to any memory location. The shelf life of NOR flash is 10,000 to 1,000,000 write/erase cycles.
Saving games without a Memory card for a Game Cube is like Trying to save data without Hard Drive! A Memory Card to a Game Cube is what a Hard Drive is to a Computer! Get a Memory Card for the Game Cube or better yet get Two one for slot A and another for slot B! That way you have more space on the second card so when Memory Card in Slot A runs outta Space you can move data to Slot B
If you use a camera or cards that support UHS-II speeds, we recommend the Verbatim USB-C Pocket Card Reader. The Verbatim had read and write speeds of 227 MB/s and 219 MB/s, respectively—around 2.5 times the speed of our top pick—but it cannot read multiple cards at once. It also lacks a CF card slot (so high-end DSLR owners may want to look at our pick for traditional USB ports, along with an adapter if they need USB-C compatibility) and an indicator light, but it costs around the same price as our top pick and comes with a one-year warranty.
Newegg.com – A great place to buy computers, computer parts, electronics, software, accessories, and DVDs online. With great prices, fast shipping, and top-rated customer service – once you know, you Newegg.
However, SD is much more open than Memory Stick, for which no public documentation nor any documented legacy implementation is available. All SD cards can be accessed freely using the well-documented SPI bus.
Many older video game consoles used memory cards to hold saved game data. Cartridge-based systems primarily used battery-backed volatile RAM within each individual cartridge to hold saves for that game. Cartridges without this RAM may have used a password system, or wouldn’t save progress at all. The Neo Geo AES, released in 1990 by SNK, was the first video game console able to use a memory card. AES memory cards were also compatible with Neo-Geo MVS arcade cabinets, allowing players to migrate saves between home and arcade systems and vice versa. Memory cards became commonplace when home consoles moved to read-only optical discs for storing the game program, beginning with systems such as the TurboGrafx-CD and Sega-CD.
Although data structures in flash memory cannot be updated in completely general ways, this allows members to be “removed” by marking them as invalid. This technique may need to be modified for multi-level cell devices, where one memory cell holds more than one bit.
Compatibility with SD and CF cards: There are a wide variety of memory card formats, but the most prominent are Secure Digital (SD), microSD, and CompactFlash (CF). We looked for readers that support SD and CF cards to ensure compatibility with as many cameras as possible; although most people don’t need CF support nowadays, we considered them for professionals and people with older cameras. We also tried to find readers that support faster UHS-II speeds for SD cards,1 but couldn’t find any USB-C readers with both UHS-II support and a CF card slot.
If your smartphone, tablet or entry-level point-and-shoot camera has a memory card slot, you may opt to add a memory card to store your photos, videos, and other data like apps or music. In these cases, you will be more concerned about the card’s storage capacity than its speed. Though they are small, microSD cards can offer large capacities of 128GB and more. Whichever size card you’re interested in, you’ll want to make sure before you buy that your device will support that capacity.
Many ASICs are pad-limited, meaning that the size of the die is constrained by the number of wire bond pads, rather than the complexity and number of gates used for the device logic. Eliminating bond pads thus permits a more compact integrated circuit, on a smaller die; this increases the number of dies that may be fabricated on a wafer, and thus reduces the cost per die.
When executing software from NAND memories, virtual memory strategies are often used: memory contents must first be paged or copied into memory-mapped RAM and executed there (leading to the common combination of NAND + RAM). A memory management unit (MMU) in the system is helpful, but this can also be accomplished with overlays. For this reason, some systems will use a combination of NOR and NAND memories, where a smaller NOR memory is used as software ROM and a larger NAND memory is partitioned with a file system for use as a non-volatile data storage area.