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DRAM (Dynamic Random Access Memory)

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H5TQ4G63MFR-PBC

SK hynix

512MB 256Mx16 1.425V 210mA 1.575V 1.6GHz 16bit BGA

Quantity: 1954

Ship Date: 5-7 working days

1120+ $2.8945

11200+ $2.8077

Ext. Price: $3241.84

MOQ: 1120

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H5AN8G6NDJR-WMC

SK hynix

BGA96

Quantity: 160

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11200+ $2.319

Ext. Price: $2677.58

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H5TQ4G63EFR-TEC

SK hynix

Datasheet

512MB 256Mx16 1.425V 180mA 1.575V 2.133GHz DDR3 SDRAM 16bit BGA

Quantity: 695

Ship Date: 5-7 working days

1120+ $1.9297

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H55S1G62MFP-E3

SK hynix

64M x 16 bit 1.95V 16bit SMD mount 12mm*8mm*1mm

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Ship Date: 7-13 working days

5+ $14.8123

10+ $12.9827

50+ $10.7393

100+ $9.9518

Ext. Price: $74.06

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H5TQ4G63EFR-RDC

SK hynix

Datasheet

512MB 256MX16 1.425V 1.575V 16bit FBGA-96 SMD mount 13mm*7.5mm*760μm

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DRAM (Dynamic Random Access Memory)

DRAM, which stands for Dynamic Random Access Memory, is a type of volatile memory used in computers and other electronic devices for storing data. Here's a concise introduction in English:

Definition:
Dynamic Random Access Memory (DRAM) is a class of semiconductor memory that is used for the main memory in computers and other electronic devices. It is called "dynamic" because it relies on capacitors to store each bit of data, which must be periodically refreshed to prevent data loss.

Function:
DRAM functions by allowing data to be accessed in any order with a relatively small access time. It is designed to be read and written to, with each memory cell storing a single bit of information. DRAM is volatile, meaning it loses its data when power is turned off.

Applications:
DRAM is widely used in various applications due to its high density and cost-effectiveness. It is the primary type of memory found in personal computers, servers, and workstations for system memory (RAM). It is also used in graphics cards for video memory and in embedded systems where high-speed data access is required.

Selection Criteria:
When selecting DRAM, several factors are considered:
1. Capacity: The amount of data that can be stored, measured in gigabytes (GB).
2. Speed: The speed at which data can be accessed, often specified in megahertz (MHz).
3. Latency: The time it takes for a memory access to complete, measured in clock cycles.
4. Form Factor: The physical size and compatibility with the device's motherboard.
5. Energy Efficiency: The power consumption of the DRAM, which is important for battery-powered devices.
6. Reliability: The ability of the DRAM to maintain data integrity over time and under various operating conditions.
7. Price: The cost of the DRAM, which can vary based on the above factors and market conditions.

In summary, DRAM is a critical component in modern electronics, providing fast and flexible data storage that is essential for the operation of computers and other digital systems. When choosing DRAM, it's important to balance factors such as capacity, speed, latency, form factor, energy efficiency, reliability, and cost to meet the specific needs of the application.
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