The MB81C1000A-60PJ is a high-speed 1M-bit CMOS Dynamic RAM (DRAM) organized as 1,048,576 words x 1 bit. Fabricated using Fujitsu's advanced CMOS process, it offers a combination of high performance and low power consumption. The 60ns access time makes it suitable for demanding applications requiring fast memory access.

Applications

• Main memory in personal computers and workstations
• Cache memory in high-performance systems
• Graphics memory in video cards
• Buffer memory in printers and scanners
• Memory for embedded systems and industrial controllers

Features

• High density: 1M-bit capacity
• Fast access time: 60ns
• Low power consumption: Active and standby modes
• Single 5V power supply
• TTL compatible inputs and outputs
• Refresh modes: Self-refresh, CAS-before-RAS refresh
• Package: Plastic J-leaded Chip Carrier (PJ)

Benefits

• Improved system responsiveness due to fast memory access
• Extended battery life in portable applications due to low power consumption
• Increased memory capacity within a compact design
• Easy integration with standard TTL logic
• Simplified refresh operation for efficient memory management
• Suitable for surface mount assembly due to the PJ package

Technical Specifications

The MB81C1000A-60PJ operates on a single 5V ± 10% power supply. It features a typical active power consumption of around 250mW and a standby power consumption of only a few milliwatts. The input and output levels are TTL compatible. The refresh cycle is typically 16ms. The operating temperature range is from 0°C to +70°C. The Plastic J-leaded Chip Carrier (PJ) package allows for surface mounting on printed circuit boards.

The MB81C1000A-60PJ is well-suited for applications where fast memory access and low power consumption are critical. Its high density and small package size make it ideal for space-constrained applications, while its TTL compatibility simplifies integration into existing systems. The fast access time ensures that data can be retrieved quickly, minimizing latency and improving overall system performance.