Universal & Production Device Programmers, Adapters | Elnec
show-menu
0 items | view cart Elnec online orders

Device: K8S3115ETF [FBGA44]

Manufacturer: Samsung

Part number description for this device:

Move the cursor over the box to highlight particular section
K Memory  
8 NOR Flash  
X Small Classification 5 = Dual bank die stack
6 = Single bank die stack
7 = Multiplexed DDP
8 = De-Multiplexed DDP
A = De-Multiplexed burst
B = Single bank boot block
C = MLC De-Muxed
D = Dual bank boot block
F = MLC muxed
G = MLC de-multiplexed DDP
H = MLC multiplexed DDP
L = Intel NOR flash
P = Page mode
S = Multiplexed burst
T = Mitsubishi NOR flash
U = Single bank uniform block
XX Density - Dual bank die stack
64 = 64M (3232,824)
65 = 64M (3232,1616)
- Single bank die stack
27 = 128M(2CS)
64 = 64M(32M,32M)
55 = 256Mbit(16Mx16)
- Multiplexed DDP
11 = 512M(1CS, 32Bank)
13 = 512M(2CS)
56 = 256M(16Bank)
1G = 1G(16Bank)
- De-Multiplexed DDP
12 = 512M(16Bank)
13 = 512M(2CS)
56 = 256M(16Bank)
1G = 1G(16Bank)
- De-Multiplexed Burst
12 = 512M(16Bank)
28 = 128M(8M,16Bank)
32 = 32M(2M, 16Bank)
56 = 256M(16Bank)
64 = 64M(4M, 16Bank)
- Single Bank Boot Block
16 = 16M
27 = 128M(2CS)
28 = 128M
32 = 32M
64 = 64M
80 = 8M
- MLC De-Muxed
12 = 512M(16Bank)
56 = 256M(16Bank)
1G = 1G(16Bank)
- Dual Bank Boot Block(Bank1, Bank2)
15 = 16M(2M, 14M)
16 = 16M(4M, 12M)
17 = 16M(8M, 8M)
32 = 32M(8M, 24M)
33 = 32M(16M, 16M)
62 = 64M(8M, 24M)
63 = 64M(16M, 48M)
64 = 64M(24M, 40M)
65 = 64M(32M, 32M)
- MLC Muxed
12 = 512M(16Bank)
56 = 256M(16Bank)
1G = 1G(16Bank)
MLC De-Multiplexed DDP
11 = 512M(1CS, 32Bank)
13 = 512M(2CS)
- MLC Multiplexed DDP
11 = 512M(1CS, 32Bank)
13 = 512M(2CS)
- Intel NOR Flash
56 = 256M(8Bank)
28 = 128M(16Bank)
- Page Mode
28 = 128M(8M, 16Bank)
56 = 256M(16Bank)
64 = 64M(4M, 16Bank)
- Multiplexed Burst
12 = 512M(16Bank)
28 = 128M(8M, 16Bank)
32 = 32M(16Bank)
56 = 256M(16Bank)
64 = 64M(4M, 16Bank)
- Mitsubishi NOR Flash
64 = 64M(4,4,28,28)
- Single Bank Uniform Block
16 = 16M
27 = 128M(2CS)
28 = 128M
32 = 32M
64 = 64M
80 = 8M
XX Organization 08 = x8
15 = x16
16 = x8/x16
32 = x16/x32
X Power Supply 8 = 1.8V (1.7V to 1.9V)
E = 1.8V (1.7V to 1.95V)
F = 1.8V / Vio=3.0V (2.2V to 3.3V)
K = 2.8V (2.5V to 3.1V)
L = 1.8V (1.65V to 1.95V)
R = 2.0V (1.8V to 2.2V)
S = 2.5V (2.3V to 2.7V)
U = 3.0V / 3.3V (2.7V to 3.6V)
Y = 3.0V (2.7V to 3.3V)
V = 3.0V (2.7V to 3.1V)
X Device Type 1 = 4MSRAM MCP
2 = 8M SRAM MCP
3 = 16M SRAM MCP
4 = 128M SDR H-die MCP
5 = 16M UtRAM MCP
6 = 32M UtRAM MCP
7 = 128M DDR MCP
8 = OneNAND, SDRAM MCP
9 = 128M MDD
A = 8M Boot block MCP(Top)
B = Bottom boot block
C = BootBlock(chip1-bottom, chip2-top)
D = 16M Boot block MCP(Top)
E = 16M Boot block MCP(Bottom)
F = 16M Dual bank MCP(Top)
G = 16M Dual bank MCP(Bottom)
H = 32M Dual bank MCP(Top)
I = 32M Dual bank MCP(Bottom)
J = 64M Dual bank MCP(Top)
K = 64M Dual bank MCP(Bottom)
L = 4M Boot block MCP(Top)
M = Top boot block in DDP
N = Bottom boot block in DDP
P = 256M DDR MCP
Q = Top and bottom boot block
S = Uniq ID
T = Top boot block
Z = Uniform block
X Generation M = 1st generation
A = 2nd generation
B = 3rd generation
C = 4th generation
D = 5th generation
E = 6th generation
F = 7th generation
L = Intel 1st generation
T = Mitsubishi 1st generation
X Package Type 1 = MCP
C = Chip BIZ
W = Wafer
D = FBGA(LF)
E = FBGA (LF, 1mm pitch)
F = FBGA
L = TBGA(LF)
T = TBGA
P = TSOP1(LF)
S = FBGA(LF, OSP)
U = FBGA(OSP)
Y = TSOP1
X Temperature Range 0None
C = Commercial
E = Extended
I = Industrial
XX Speed 03 = 85ns
07 = 70ns
08 = 80ns
09 = 90ns
12 = 120ns
1A = 100ns(C/F 40MHz)
1B = 100ns(C/F 54MHz)
1C = 100ns(C/F 66MHz)
1D = 100ns(C/F 83MHz)
1E = 100ns(C/F 108MHz)
1F = 100ns(C/F 133MHz)
2A = 70ns/20ns(Page)
2B = 80ns/25ns(Page)
2C = 90ns/30ns(Page)
2D = 85ns/25ns(Page)
4A = 55ns/20ns(Page)
4B = 60ns/25ns(Page)
4C = 65ns/25ns(Page)
4D = 70ns/30ns(Page)
6F = 66ns(C/F 133MHz)
7A = 70ns(C/F 75MHz)
7B = 88.5ns(C/F 54MHz)
7C = 70ns(C/F 66MHz)
7D = 70ns(C/F 80MHz)
7E = 70ns(C/F 40MHz)
9A = 90ns(C/F 40MHz)
9B = 95ns(C/F 66MHz)
9C = 90ns(C/F 54MHz)
9D = 90ns(C/F 80MHz)
DS = Daisychain sample
00 = None(containing exception handling code)

Note: Part number description table describes usual part-numbering system for more chips, therefore this table can contain information, that might not be valid for the actually selected chip. The information here are provided on the best-effort basis and might be either inaccurate or incoplete. Therefore always check the latest datasheet of the chip for part number description detail. If you find some inaccuracy, let us please know.

go back to result page

Supported by programmers and programming adapters/modules:

BeeHive204 adapter/module: BGA-0401/0404 (70-0401/0404) = BGA-Bottom-14 (70-0401) + BGA-Top-41 ZIF-CS (70-0404)
BeeHive208S adapter/module: BGA-0401/0404 (70-0401/0404) = BGA-Bottom-14 (70-0401) + BGA-Top-41 ZIF-CS (70-0404)
BeeProg2 adapter/module: BGA-0401/0404 (70-0401/0404) = BGA-Bottom-14 (70-0401) + BGA-Top-41 ZIF-CS (70-0404)
BeeProg2C adapter/module: BGA-0401/0404 (70-0401/0404) = BGA-Bottom-14 (70-0401) + BGA-Top-41 ZIF-CS (70-0404)
go back to result page
🍪
Back to TOP