Flex-OneNAND KFG4GH6x4M
KFH8GH6x4M
KFWAGH6x4M is a monolithic integrated circuit with a NAND Flash array using a NOR Flash interface.
The chip integrates system features including:
, A BootRAM(1KB) and bootloader
, 4KB DataRAM ...
Flex-OneNAND, is a monolithic integrated circuit with a NAND Flash array using a NOR Flash interface.( KFG4GH6Q4M
KFG4GH6U4M
KFH8GH6Q4M
KFH8GH6U4M
KFWAGH6Q4M
KFWAGH6U4M )
The chip integrates system features including:
, A BootRAM(1KB) ...
Flex-MuxOneNAND, is a monolithic integrated circuit with a NAND Flash array using a NOR Flash interface. KFM4GH6Q4M
KFN8GH6Q4M
KFKAGH6Q4M
The chip integrates system features including:
, A BootRAM(1KB) and bootloader
, 4KB ...
Flex-OneNAND, is a monolithic integrated circuit with a NAND Flash array using a NOR Flash interface. KFG4GH6Q4M
KFG4GH6U4M
KFH8GH6Q4M
KFH8GH6U4M
KFWAGH6Q4M
KFWAGH6U4M
The chip integrates system features including:
, A BootRAM(1KB) and ...
Samsung offers a variety of Flash solutions including NAND Flash, MuxOneNAND, and NOR Flash Samsung offers Flash products
both component and a variety of card formats including RS-MMC, MMC, CompactFlash, and SmartMedia. KFM2G16Q2M
KFN4G16Q2M
KFK8G16Q2M ...
Samsung offers a variety of Flash solutions including NAND Flash, OneNAND, and NOR Flash Samsung offers Flash products
both component and a variety of card formats including RS-MMC, MMC, CompactFlash, and SmartMedia.
To determine which Samsung Flash product ...
Samsung offers a variety of Flash solutions including NAND Flash, MuxOneNAND, and NOR Flash Samsung offers Flash products both
component and a variety of card formats including RS-MMC, MMC, CompactFlash, and SmartMedia. KFM2G16Q2A
KFN4G16Q2A
To determine ...
Samsung offers a variety of Flash solutions including NAND Flash, OneNAND, and NOR Flash Samsung offers Flash products both compo-
nent and a variety of card formats including RS-MMC, MMC, CompactFlash, and SmartMedia. ...
OneNAND is a highly integrated non-volatile memory solution based around a NAND Flash memory array.
The chip integrates system features including:
, A BootRAM and bootloader
, Two independent bi-directional 2KB DataRAM buffers
...
The K8C12(13)15E featuring single 1.8V power supply is a
512Mbit Burst Multi Bank Flash Memory organized as 32Mx16.
The memory architecture of the device is designed to divide its
memory arrays into 515 blocks with independent hardware pro-
tection. This ...
The K8F1315EBM featuring single 1.8V power supply is a
512Mbit Muxed Burst Multi Bank Flash Memory organized as
32Mx16. The memory architecture of the device is designed to
divide its memory arrays into 515 blocks with independent hard-
ware protection. ...
The K8F12(13)15E featuring single 1.8V power supply is a
512Mbit Muxed Burst Multi Bank Flash Memory organized as
32Mx16. The memory architecture of the device is designed to
divide its memory arrays into 515 blocks with independent hard-
ware protection. ...
The K8C12(13)15E featuring single 1.8V power supply is a
512Mbit Burst Multi Bank Flash Memory organized as 32Mx16.
The memory architecture of the device is designed to divide its
memory arrays into 515 blocks with independent hardware pro-
tection. This ...
The K8F12(13)15E featuring single 1.8V power supply is a
512Mbit Muxed Burst Multi Bank Flash Memory organized as
32Mx16. The memory architecture of the device is designed to
divide its memory arrays into 515 blocks with independent hard-
ware protection. ...
The K8C1215ETM K8C1215EBM
K8C1315ETM K8C1315EBM featuring single 1.8V power supply is a
512Mbit Burst Multi Bank Flash Memory organized as 32Mx16.
The memory architecture of the device is designed to divide its
memory arrays into 515 blocks with ...
The K8C12(13)15E featuring single 1.8V power supply is a
512Mbit Burst Multi Bank Flash Memory organized as 32Mx16.
The memory architecture of the device is designed to divide its
memory arrays into 515 blocks with independent hardware pro-
tection. This ...
The K8F1215ETM K8F1215EBM
K8F1315ETM K8F1315EBM featuring single 1.8V power supply is a
512Mbit Muxed Burst Multi Bank Flash Memory organized as
32Mx16. The memory architecture of the device is designed to
divide its memory arrays into 515 blocks with ...
The K8P5615UQA featuring single 3.0V power supply, is an
256Mbit NOR-type Flash Memory organized as 16M x16. The
memory architecture of the device is designed to divide its
memory arrays into 134 blocks with independent hardware pro-
tection. This block ...
The K8A5615E featuring single 1.8V power supply is a 256Mbit
Synchronous Burst Multi Bank Flash Memory organized as
16Mx16. The memory architecture of the device is designed to
divide its memory arrays into 519 blocks with independent hard-
ware ...
The K8A5615E featuring single 1.8V power supply is a 256Mbit
Synchronous Burst Multi Bank Flash Memory organized as
16Mx16. The memory architecture of the device is designed to
divide its memory arrays into 519 blocks with independent hard-
ware ...
The K8S5615E featuring single 1.8V power supply is a 256Mbit
Muxed Burst Multi Bank Flash Memory organized as 16Mx16.
The memory architecture of the device is designed to divide its
memory arrays into 519 blocks with independent hardware pro-
tection. This ...
The K8F5615ETM K8F5615EBM
K8F5715ETM K8F5715EBM featuring single 1.8V power supply is a
256Mbit Muxed Burst Multi Bank Flash Memory organized as
16Mx16. The memory architecture of the device is designed to
divide its memory arrays into 259 blocks with ...
The K8C56(57)15E featuring single 1.8V power supply is a 256Mbit Burst Multi Bank Flash Memory organized as 16Mx16. The memory
architecture of the device is designed to divide its memory arrays into 259 blocks with independent hardware protection. This ...
The K8C56(57)15E featuring single 1.8V power supply is a 256Mbit Burst Multi Bank Flash Memory organized as 16Mx16. The memory
architecture of the device is designed to divide its memory arrays into 259 blocks with independent hardware protection. This ...
The K8C56(57)15E featuring single 1.8V power supply is a 256Mbit Burst Multi Bank Flash Memory organized as 16Mx16. The memory
architecture of the device is designed to divide its memory arrays into 259 blocks with independent hardware protection. This ...
The K8C56(57)15E featuring single 1.8V power supply is a 256Mbit Burst Multi Bank Flash Memory organized as 16Mx16. The memory
architecture of the device is designed to divide its memory arrays into 259 blocks with independent hardware protection. This ...
The K8P2915UQB featuring single 3.0V power supply, is an
128Mbit NOR-type Flash Memory organized as 8M x16. The
memory architecture of the device is designed to divide its
memory arrays into 270 blocks with independent hardware pro-
tection. This block ...
The K8P2815UQB featuring single 3.0V power supply, is an
128Mbit NOR-type Flash Memory organized as 8M x16. The
memory architecture of the device is designed to divide its
memory arrays into 270 blocks with independent hardware pro-
tection. This block ...
The K8S2815E featuring single 1.8V power supply is a 128Mbit
Muxed Burst Multi Bank Flash Memory organized as 8Mbx16.
The memory architecture of the device is designed to divide its
memory arrays into 263 blocks with independent hardware pro-
tection. This ...
The K8S2815E featuring single 1.8V power supply is a 128Mbit
Muxed Burst Multi Bank Flash Memory organized as 8Mbx16.
The memory architecture of the device is designed to divide its
memory arrays into 263 blocks with independent hardware pro-
tection. This ...
The K8Q2815UQB featuring single 3.0V power supply, is an
128Mbit NOR-type Flash Memory organized as 8M x16. The
memory architecture of the device is designed to divide its
memory arrays into 284 blocks with independent hardware pro-
tection. This block ...
The K8A2815E featuring single 1.8V power supply is a 128Mbit
Synchronous Burst Multi Bank Flash Memory organized as
16Mx16. The memory architecture of the device is designed to
divide its memory arrays into 263 blocks with independent hard-
ware ...
The K8A2815E featuring single 1.8V power supply is a 128Mbit
Synchronous Burst Multi Bank Flash Memory organized as
16Mx16. The memory architecture of the device is designed to
divide its memory arrays into 263 blocks with independent hard-
ware ...
The K8P6415UQB featuring single 3.0V power supply, is an
64Mbit NOR-type Flash Memory organized as 4M x16. The
memory architecture of the device is designed to divide its
memory arrays into 142 blocks with independent hardware pro-
tection. This block ...
The K8S6415E featuring single 1.8V power supply is a 64Mbit
Muxed Burst Multi Bank Flash Memory organized as 4Mbx16.
The memory architecture of the device is designed to divide its
memory arrays into 135 blocks with independent hardware pro-
tection. This ...
The K8S6415E featuring single 1.8V power supply is a 64Mbit
Muxed Burst Multi Bank Flash Memory organized as 4Mbx16.
The memory architecture of the device is designed to divide its
memory arrays into 135 blocks with independent hardware pro-
tection. This ...
The K8P6415UQB featuring single 3.0V power supply, is an
64Mbit NOR-type Flash Memory organized as 4M x16. The
memory architecture of the device is designed to divide its
memory arrays into 142 blocks with independent hardware pro-
tection. This block ...
The K8A6415E featuring single 1.8V power supply is a 64Mbit
Muxed Burst Multi Bank Flash Memory organized as 4Mbx16.
The memory architecture of the device is designed to divide its
memory arrays into 135 blocks with independent hardware pro-
tection. This ...
The K8A6415E featuring single 1.8V power supply is a 64Mbit
Muxed Burst Multi Bank Flash Memory organized as 4Mbx16.
The memory architecture of the device is designed to divide its
memory arrays into 135 blocks with independent hardware pro-
tection. This ...
The K8A3215E featuring single 1.8V power supply is a 32Mbit
Burst Multi Bank Flash Memory organized as 2Mbx16. The
memory architecture of the device is designed to divide its
memory arrays into 71 blocks with independent hardware pro-
tection. This block ...
The K8A3215E featuring single 1.8V power supply is a 32Mbit
Burst Multi Bank Flash Memory organized as 2Mbx16. The
memory architecture of the device is designed to divide its
memory arrays into 71 blocks with independent hardware pro-
tection. This block ...
The K8S3215E featuring single 1.8V power supply is a 32Mbit
Muxed Burst Multi Bank Flash Memory organized as 2Mbx16.
The memory architecture of the device is designed to divide its
memory arrays into 71 blocks with independent hardware pro-
tection. This ...
The K8S3215E featuring single 1.8V power supply is a 32Mbit
Muxed Burst Multi Bank Flash Memory organized as 2Mbx16.
The memory architecture of the device is designed to divide its
memory arrays into 71 blocks with independent hardware pro-
tection. This ...
The K8P3215UQB featuring single 3.0V power supply, is an
32Mbit NOR-type Flash Memory organized as 2Mx16. The
memory architecture of the device is designed to divide its
memory arrays into 78 blocks with independent hardware pro-
tection. This block ...
The K8P1615UQB featuring single 3.0V power supply, is a
16Mbit NOR-type Flash Memory organized as 1Mx16. The
memory architecture of the device is designed to divide its
memory arrays into 46 blocks with independent hardware pro-
tection. This block ...
The K8C5415ETM K8C5415EBM
K8C5515ETM K8C5515EBM featuring single 1.8V power supply is a 256Mbit Burst Multi Bank Flash Memory organized as 16Mx16. The memory
architecture of the device is designed to divide itsK8C55 memory arrays into 259 blocks with ...
The K8C10(11)15E featuring single 1.8V power supply is a
512Mbit Burst Multi Bank Flash Memory organized as 32Mx16.
The memory architecture of the device is designed to divide its
memory arrays into 515 blocks with independent hardware pro-
tection. This ...
The K8C1015ETM K8C1015EBM
K8C1115ETM K8C1115EBM featuring single 1.8V power supply is a
512Mbit Burst Multi Bank Flash Memory organized as 32Mx16.
The memory architecture of the device is designed to divide its
memory arrays into 515 blocks with ...
The K8P3315UQB featuring single 3.0V power supply, is an
32Mbit NOR-type Flash Memory organized as 2Mx16. The
memory architecture of the device is designed to divide its
memory arrays into 78 blocks with independent hardware pro-
tection. This block ...
