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We have eMMC services! Our services include eMMC. With some of industry’s top engineers, we’ve pioneered new innovations and products that have revolutionized the eMMC memory industry with incomparable reliability and durability. We are the preferred choice of our customers for offering outstanding product assortment and flexible services. Please do not hesitate to contact us if you are interested in our eMMC, eMMC memory, embedded MMC after referring our homepage.
| Item No. | Product Name | Density | Voltage | Package | File Download |
|---|---|---|---|---|---|
| HAA24G46113S | eMMC 5.1 | 4GB | Vcc = 2.7V to 3.6V VccQ = 1.7V to 1.95V / 2.7V to 3.6V |
FBGA153 11mm x 10mm |  |
| HAA18G35111S | eMMC 5.1 | 8GB | Vcc = 2.7V to 3.6V VccQ = 1.7V to 1.95V / 2.7V to 3.6V |
FBGA153 11.5mm x 13mm | |
| HAA1AG35111S | eMMC 5.1 | 16GB | Vcc = 2.7V to 3.6V VccQ = 1.7V to 1.95V / 2.7V to 3.6V |
FBGA153 11.5mm x 13mm | |
| HAA2BG17111S | eMMC 5.1 | 32GB | Vcc = 2.7V to 3.6V VccQ = 1.7V to 1.95V / 2.7V to 3.6V |
FBGA153 11.5mm x 13mm | |
| HAA1CG35111S | eMMC 5.1 | 64GB | Vcc = 2.7V to 3.6V VccQ = 1.7V to 1.95V / 2.7V to 3.6V |
FBGA153 11.5mm x 13mm | |
| HAA24G34112I | eMMC 5.0 | 4GB | Vcc = 2.7V to 3.6V VccQ = 1.7V to 1.95V / 2.7V to 3.6V |
FBGA100 14mm x18mm | |
| HAA28G34112I | eMMC 5.0 | 8GB | Vcc = 2.7V to 3.6V VccQ = 1.7V to 1.95V / 2.7V to 3.6V |
FBGA100 14mm x18mm | |
| HAA2AG34112I | eMMC 5.0 | 16GB | Vcc = 2.7V to 3.6V VccQ = 1.7V to 1.95V / 2.7V to 3.6V |
FBGA100 14mm x18mm | |
| HAA2BG34112I | eMMC 5.0 | 32GB | Vcc = 2.7V to 3.6V VccQ = 1.7V to 1.95V / 2.7V to 3.6V |
FBGA100 14mm x18mm | |
| HAA24G46113I | eMMC 5.1 | 4GB | Vcc = 2.7V to 3.6V VccQ = 1.7V to 1.95V / 2.7V to 3.6V |
FBGA153 11mm x 10mm | |
| HAA18G35111I | eMMC 5.1 | 8GB | Vcc = 2.7V to 3.6V VccQ = 1.7V to 1.95V / 2.7V to 3.6V |
FBGA153 11.5mm x 13mm | |
| HAA1AG35111I | eMMC 5.1 | 16GB | Vcc = 2.7V to 3.6V VccQ = 1.7V to 1.95V / 2.7V to 3.6V |
FBGA153 11.5mm x 13mm | |
| HAA2BG17111I | eMMC 5.1 | 32GB | Vcc = 2.7V to 3.6V VccQ = 1.7V to 1.95V / 2.7V to 3.6V |
FBGA153 11.5mm x 13mm | |
| HAA1CG35111I | eMMC 5.1 | 64GB | Vcc = 2.7V to 3.6V VccQ = 1.7V to 1.95V / 2.7V to 3.6V |
FBGA153 11.5mm x 13mm | |
HAA18G35111I
8Gb eMMC
HAA18G35111I is 8GB density of e-MMC Module product housed in 153 ball BGA package. This unit is utilized advanced NAND flash device(s) and controller chip assembled as Multi Chip Module. HAA18G35111I has a standard MMC protocol for easy use.
HAA18G35111S
8Gb eMMC
HAA18G35111S is 8GB density of e-MMC Module product housed in 153 ball BGA package. This unit is utilized advanced NAND flash device(s) and controller chip assembled as Multi Chip Module. HAA18G35111S has a standard MMC protocol for easy use.
HAA1AG35111I
16Gb eMMC
HAA1AG35111I is 16GB density of e-MMC Module product housed in 153 ball BGA package. This unit is utilized advanced NAND flash device(s) and controller chip assembled as Multi Chip Module. HAA1AG35111I has a standard MMC protocol for easy use.
HAA1AG35111S
16Gb eMMC
HAA1AG35111S is 16GB density of e-MMC Module product housed in 153 ball BGA package. This unit is utilized advanced NAND flash device(s) and controller chip assembled as Multi Chip Module. HAA1AG35111S has a standard MMC protocol for easy use.
HAA1CG35111I
64Gb eMMC
AXEME eMMC is an embedded MMC solution designed in a BGA package form. eMMC operation is identical to a MMC device and therefore is a sim- ple read and write to memory using MMC protocol v5.1 which is a industry standard.
eMMC consists of NAND flash and a MMC controller. 3V supply voltage is required for the NAND area (VCC) whereas 1.8V or 3V dual supply voltage (VCCQ) is supported for the MMC controller. AXEME eMMC supports HS400 in order to improve sequential bandwidth, especially sequential read performance.
There are several advantages of using eMMC. It is easy to use as the MMC interface allows easy integration with any microprocessor with MMC host. Any revision or amendment of NAND is invisible to the host as the embedded MMC controller insulates NAND technology from the host. This leads to faster product development as well as faster times to market.
The embedded flash management software or FTL(Flash Transition Layer) of eMMC manages Wear Leveling, Bad Block Management and ECC. The FTL supports all features of the Axeme NAND flash and achieves optimal performance.
eMMC consists of NAND flash and a MMC controller. 3V supply voltage is required for the NAND area (VCC) whereas 1.8V or 3V dual supply voltage (VCCQ) is supported for the MMC controller. AXEME eMMC supports HS400 in order to improve sequential bandwidth, especially sequential read performance.
There are several advantages of using eMMC. It is easy to use as the MMC interface allows easy integration with any microprocessor with MMC host. Any revision or amendment of NAND is invisible to the host as the embedded MMC controller insulates NAND technology from the host. This leads to faster product development as well as faster times to market.
The embedded flash management software or FTL(Flash Transition Layer) of eMMC manages Wear Leveling, Bad Block Management and ECC. The FTL supports all features of the Axeme NAND flash and achieves optimal performance.
HAA1CG35111S
64Gb eMMC
AXEME eMMC is an embedded MMC solution designed in a BGA package form. eMMC operation is identical to a MMC device and therefore is a sim- ple read and write to memory using MMC protocol v5.1 which is a industry standard.
eMMC consists of NAND flash and a MMC controller. 3V supply voltage is required for the NAND area (VCC) whereas 1.8V or 3V dual supply voltage (VCCQ) is supported for the MMC controller. AXEME eMMC supports HS400 in order to improve sequential bandwidth, especially sequential read performance.
There are several advantages of using eMMC. It is easy to use as the MMC interface allows easy integration with any microprocessor with MMC host. Any revision or amendment of NAND is invisible to the host as the embedded MMC controller insulates NAND technology from the host. This leads to faster product development as well as faster times to market.
The embedded flash management software or FTL(Flash Transition Layer) of eMMC manages Wear Leveling, Bad Block Management and ECC. The FTL supports all features of the Axeme NAND flash and achieves optimal performance.
eMMC consists of NAND flash and a MMC controller. 3V supply voltage is required for the NAND area (VCC) whereas 1.8V or 3V dual supply voltage (VCCQ) is supported for the MMC controller. AXEME eMMC supports HS400 in order to improve sequential bandwidth, especially sequential read performance.
There are several advantages of using eMMC. It is easy to use as the MMC interface allows easy integration with any microprocessor with MMC host. Any revision or amendment of NAND is invisible to the host as the embedded MMC controller insulates NAND technology from the host. This leads to faster product development as well as faster times to market.
The embedded flash management software or FTL(Flash Transition Layer) of eMMC manages Wear Leveling, Bad Block Management and ECC. The FTL supports all features of the Axeme NAND flash and achieves optimal performance.
HAA24G34112I
4Gb MLC eMMC
- Compliant with eMMC Specification Ver.4.4, 4.41,4.5,5.0
- Bus mode
- High-speed eMMC protocol
- Clock frequency : 0-200MHz.
- Ten-wire bus (clock, 1 bit command, 8 bit data bus) and a hardware reset.
- Supports three different data bus widths : 1 bit(default), 4 bits, 8 bits
- Data transfer rate: up to 52Mbyte/s (using 8 parallel data lines at 52 MHz)
- Single data rate : up to 200Mbyte/s @ 200MHz
- Dual data rate : up to 400Mbyte/s @ 200MHz
- Operating voltage range :
- VCCQ = 1.8 V/3.3 V
- VCC = 3.3 V
- Error free memory access
- Internal error correction code (ECC) to protect data communication
- Internal enhanced data management algorithm
- Solid protection of sudden power failure safe-update operations for data content
- Security
- Support secure bad block erase commands
- Enhanced write Protection with permanent and partial protection options
- Quality
- RoHS compliant (for detailed RoHS declaration, please contact your AXEME representative.)
- Supports Field Firmware Update(FFU)
- Enhanced Device Life time
- Support Pre EOL information
- Optimal Size
- Supports Production State Awareness
- Supports Power Off Notification for Sleep
- Supports HS400
- Temperature range
- Operation:
- Industrial1: -40℃~85℃
- Storage:
- -40℃~85℃
- Operation:
HAA24G46113I
4Gb eMMC
AXEME eMMC is an embedded MMC solution designed in a BGA package form. eMMC operation is identical to a MMC device and therefore is a sim- ple read and write to memory using MMC protocol v5.1 which is a industry standard.
eMMC consists of NAND flash and a MMC controller. 3V supply voltage is required for the NAND area (VCC) whereas 1.8V or 3V dual supply voltage (VCCQ) is supported for the MMC controller. AXEME eMMC supports HS400 in order to improve sequential bandwidth, especially sequential read performance.
There are several advantages of using eMMC. It is easy to use as the MMC interface allows easy integration with any microprocessor with MMC host. Any revision or amendment of NAND is invisible to the host as the embedded MMC controller insulates NAND technology from the host. This leads to faster product development as well as faster times to market.
The embedded flash management software or FTL(Flash Transition Layer) of eMMC manages Wear Leveling, Bad Block Management and ECC. The FTL supports all features of the Axeme NAND flash and achieves optimal performance.
eMMC consists of NAND flash and a MMC controller. 3V supply voltage is required for the NAND area (VCC) whereas 1.8V or 3V dual supply voltage (VCCQ) is supported for the MMC controller. AXEME eMMC supports HS400 in order to improve sequential bandwidth, especially sequential read performance.
There are several advantages of using eMMC. It is easy to use as the MMC interface allows easy integration with any microprocessor with MMC host. Any revision or amendment of NAND is invisible to the host as the embedded MMC controller insulates NAND technology from the host. This leads to faster product development as well as faster times to market.
The embedded flash management software or FTL(Flash Transition Layer) of eMMC manages Wear Leveling, Bad Block Management and ECC. The FTL supports all features of the Axeme NAND flash and achieves optimal performance.
HAA24G46113S
4Gb eMMC
AXEME eMMC is an embedded MMC solution designed in a BGA package form. eMMC operation is identical to a MMC device and therefore is a sim- ple read and write to memory using MMC protocol v5.1 which is a industry standard.
eMMC consists of NAND flash and a MMC controller. 3V supply voltage is required for the NAND area (VCC) whereas 1.8V or 3V dual supply voltage (VCCQ) is supported for the MMC controller. AXEME eMMC supports HS400 in order to improve sequential bandwidth, especially sequential read performance.
There are several advantages of using eMMC. It is easy to use as the MMC interface allows easy integration with any microprocessor with MMC host. Any revision or amendment of NAND is invisible to the host as the embedded MMC controller insulates NAND technology from the host. This leads to faster product development as well as faster times to market.
The embedded flash management software or FTL(Flash Transition Layer) of eMMC manages Wear Leveling, Bad Block Management and ECC. The FTL supports all features of the Axeme NAND flash and achieves optimal performance.
eMMC consists of NAND flash and a MMC controller. 3V supply voltage is required for the NAND area (VCC) whereas 1.8V or 3V dual supply voltage (VCCQ) is supported for the MMC controller. AXEME eMMC supports HS400 in order to improve sequential bandwidth, especially sequential read performance.
There are several advantages of using eMMC. It is easy to use as the MMC interface allows easy integration with any microprocessor with MMC host. Any revision or amendment of NAND is invisible to the host as the embedded MMC controller insulates NAND technology from the host. This leads to faster product development as well as faster times to market.
The embedded flash management software or FTL(Flash Transition Layer) of eMMC manages Wear Leveling, Bad Block Management and ECC. The FTL supports all features of the Axeme NAND flash and achieves optimal performance.
HAA28G34112I
8Gb MLC eMMC
- Compliant with eMMC Specification Ver.4.4, 4.41,4.5,5.0
- Bus mode
- High-speed eMMC protocol
- Clock frequency : 0-200MHz.
- Ten-wire bus (clock, 1 bit command, 8 bit data bus) and a hardware reset.
- Supports three different data bus widths : 1 bit(default), 4 bits, 8 bits
- Data transfer rate: up to 52Mbyte/s (using 8 parallel data lines at 52 MHz)
- Single data rate : up to 200Mbyte/s @ 200MHz
- Dual data rate : up to 400Mbyte/s @ 200MHz
- Operating voltage range :
- VCCQ = 1.8 V/3.3 V
- VCC = 3.3 V
- Error free memory access
- Internal error correction code (ECC) to protect data communication
- Internal enhanced data management algorithm
- Solid protection of sudden power failure safe-update operations for data content
- Security
- Support secure bad block erase commands
- Enhanced write Protection with permanent and partial protection options
- Quality
- RoHS compliant (for detailed RoHS declaration, please contact your AXEME representative.)
- Supports Field Firmware Update(FFU)
- Enhanced Device Life time
- Support Pre EOL information
- Optimal Size
- Supports Production State Awareness
- Supports Power Off Notification for Sleep
- Supports HS400
- Temperature range
- Operation:
- Industrial1: -40℃~85℃
- Storage:
- -40℃~85℃
- Operation:
HAA2AG34112I
16Gb MLC eMMC
- Compliant with eMMC Specification Ver.4.4, 4.41,4.5,5.0
- Bus mode
- High-speed eMMC protocol
- Clock frequency : 0-200MHz.
- Ten-wire bus (clock, 1 bit command, 8 bit data bus) and a hardware reset.
- Supports three different data bus widths : 1 bit(default), 4 bits, 8 bits
- Data transfer rate: up to 52Mbyte/s (using 8 parallel data lines at 52 MHz)
- Single data rate : up to 200Mbyte/s @ 200MHz
- Dual data rate : up to 400Mbyte/s @ 200MHz
- Operating voltage range :
- VCCQ = 1.8 V/3.3 V
- VCC = 3.3 V
- Error free memory access
- Internal error correction code (ECC) to protect data communication
- Internal enhanced data management algorithm
- Solid protection of sudden power failure safe-update operations for data content
- Security
- Support secure bad block erase commands
- Enhanced write Protection with permanent and partial protection options
- Quality
- RoHS compliant (for detailed RoHS declaration, please contact your AXEME representative.)
- Supports Field Firmware Update(FFU)
- Enhanced Device Life time
- Support Pre EOL information
- Optimal Size
- Supports Production State Awareness
- Supports Power Off Notification for Sleep
- Supports HS400
- Temperature range
- Operation:
- Industrial1: -40℃~85℃
- Storage:
- -40℃~85℃
- Operation:
HAA2BG17111I
32Gb eMMC
AXEME eMMC is an embedded MMC solution designed in a BGA package form. eMMC operation is identical to a MMC device and therefore is a sim- ple read and write to memory using MMC protocol v5.1 which is a industry standard.
eMMC consists of NAND flash and a MMC controller. 3V supply voltage is required for the NAND area (VCC) whereas 1.8V or 3V dual supply voltage (VCCQ) is supported for the MMC controller. AXEME eMMC supports HS400 in order to improve sequential bandwidth, especially sequential read performance.
There are several advantages of using eMMC. It is easy to use as the MMC interface allows easy integration with any microprocessor with MMC host. Any revision or amendment of NAND is invisible to the host as the embedded MMC controller insulates NAND technology from the host. This leads to faster product development as well as faster times to market.
The embedded flash management software or FTL(Flash Transition Layer) of eMMC manages Wear Leveling, Bad Block Management and ECC. The FTL supports all features of the Axeme NAND flash and achieves optimal performance.
eMMC consists of NAND flash and a MMC controller. 3V supply voltage is required for the NAND area (VCC) whereas 1.8V or 3V dual supply voltage (VCCQ) is supported for the MMC controller. AXEME eMMC supports HS400 in order to improve sequential bandwidth, especially sequential read performance.
There are several advantages of using eMMC. It is easy to use as the MMC interface allows easy integration with any microprocessor with MMC host. Any revision or amendment of NAND is invisible to the host as the embedded MMC controller insulates NAND technology from the host. This leads to faster product development as well as faster times to market.
The embedded flash management software or FTL(Flash Transition Layer) of eMMC manages Wear Leveling, Bad Block Management and ECC. The FTL supports all features of the Axeme NAND flash and achieves optimal performance.
HAA2BG17111S
32Gb eMMC
AXEME eMMC is an embedded MMC solution designed in a BGA package form. eMMC operation is identical to a MMC device and therefore is a sim- ple read and write to memory using MMC protocol v5.1 which is a industry standard.
eMMC consists of NAND flash and a MMC controller. 3V supply voltage is required for the NAND area (VCC) whereas 1.8V or 3V dual supply voltage (VCCQ) is supported for the MMC controller. AXEME eMMC supports HS400 in order to improve sequential bandwidth, especially sequential read performance.
There are several advantages of using eMMC. It is easy to use as the MMC interface allows easy integration with any microprocessor with MMC host. Any revision or amendment of NAND is invisible to the host as the embedded MMC controller insulates NAND technology from the host. This leads to faster product development as well as faster times to market.
The embedded flash management software or FTL(Flash Transition Layer) of eMMC manages Wear Leveling, Bad Block Management and ECC. The FTL supports all features of the Axeme NAND flash and achieves optimal performance.
eMMC consists of NAND flash and a MMC controller. 3V supply voltage is required for the NAND area (VCC) whereas 1.8V or 3V dual supply voltage (VCCQ) is supported for the MMC controller. AXEME eMMC supports HS400 in order to improve sequential bandwidth, especially sequential read performance.
There are several advantages of using eMMC. It is easy to use as the MMC interface allows easy integration with any microprocessor with MMC host. Any revision or amendment of NAND is invisible to the host as the embedded MMC controller insulates NAND technology from the host. This leads to faster product development as well as faster times to market.
The embedded flash management software or FTL(Flash Transition Layer) of eMMC manages Wear Leveling, Bad Block Management and ECC. The FTL supports all features of the Axeme NAND flash and achieves optimal performance.
HAA2BG34112I
32Gb MLC eMMC
- Compliant with eMMC Specification Ver.4.4, 4.41,4.5,5.0
- Bus mode
- High-speed eMMC protocol
- Clock frequency : 0-200MHz.
- Ten-wire bus (clock, 1 bit command, 8 bit data bus) and a hardware reset.
- Supports three different data bus widths : 1 bit(default), 4 bits, 8 bits
- Data transfer rate: up to 52Mbyte/s (using 8 parallel data lines at 52 MHz)
- Single data rate : up to 200Mbyte/s @ 200MHz
- Dual data rate : up to 400Mbyte/s @ 200MHz
- Operating voltage range :
- VCCQ = 1.8 V/3.3 V
- VCC = 3.3 V
- Error free memory access
- Internal error correction code (ECC) to protect data communication
- Internal enhanced data management algorithm
- Solid protection of sudden power failure safe-update operations for data content
- Security
- Support secure bad block erase commands
- Enhanced write Protection with permanent and partial protection options
- Quality
- RoHS compliant (for detailed RoHS declaration, please contact your AXEME representative.)
- Supports Field Firmware Update(FFU)
- Enhanced Device Life time
- Support Pre EOL information
- Optimal Size
- Supports Production State Awareness
- Supports Power Off Notification for Sleep
- Supports HS400
- Temperature range
- Operation:
- Industrial1: -40℃~85℃
- Storage:
- -40℃~85℃
- Operation:
Our company is a leading firm in Taiwan which actively engaged in manufacturing eMMC, eMMC memory, embedded MMC. Axeme - Hwaling Technology Co., Ltd. works closely with customers to build eMMC in accordance with customer specifications. Being a quality conscious organization, we maintain high-quality standards in our eMMC memory. If you have any questions about our embedded MMC, or to place an order, please call our sales department and speak with any one of our professional representatives for further information.