With a 24-FBGA (Fine Pitch Ball Grid Array) package featuring corrosion-resistant solder balls, achieve robust mechanical stability and efficient heat dissipation compared to QFN/QFP alternatives*. The compact ceramic/plastic composite body ensures durability in high-temperature industrial environments.
With an SPI Octal I/O interface, enable parallelized data transfers at 200MHz, delivering up to 8x faster throughput than traditional 4-bit SPI configurations*. This reduces latency in embedded systems and IoT applications requiring rapid memory access.
With a 35ns access time and 512Mb capacity, this PSRAM chip balances high-speed data processing (up to 160MB/s) with energy efficiency—ideal for low-power edge computing devices*. The 64Mx8 architecture supports flexible memory addressing for complex workflows.
With a surface-mount design (SMD) and 24-pin FBGA form factor, seamlessly integrate into space-constrained PCB layouts for automotive, industrial control, or wearable electronics*. The 200MHz frequency ensures reliability in real-time data logging and sensor fusion applications.
With RoHS-compliant materials and lead-free solder joints, meet global environmental regulations for mass-produced electronics*. The package adheres to JEDEC standards for pinout configuration and thermal performance.
The S80KS5123GABHI020 is a high-performance PSRAM memory IC chip designed for surface-mount applications. With a 512Mb (64Mx8) capacity, SPI Octal I/O interface, and operation up to 200MHz, it delivers fast data access (35ns) and reliable performance in compact 24-FBGA packaging. Ideal for space-constrained electronics, its SMD design enables seamless integration into IoT, wearable, and automotive systems.
Feature | Specification | Benefit |
---|---|---|
Memory Capacity | 512Mb (64Mx8) | Supports dense data storage in embedded systems |
Interface Type | SPI Octal I/O | Enables high-speed parallel data transfer |
Operating Frequency | 200MHz | Ensures rapid data processing capabilities |
Access Time | 35ns | Reduces latency for real-time applications |
Packaging | 24-FBGA | Facilitates high-density PCB layout |
Mounting Type | Surface Mount (SMD) | Simplifies automated assembly processes |
Adjustable parameters include operating voltage tolerance and pin configuration to meet specific thermal or mechanical requirements. For instance, custom surface treatments (e.g., enhanced corrosion resistance) can be applied for industrial or automotive use cases.
With its compact FBGA package and SPI Octal I/O, this PSRAM chip is perfect for memory-intensive applications like smart sensors, wearable health monitors, and automotive control units. Its 200MHz speed ensures seamless integration into systems demanding low power consumption and quick response times.
Parameter | Base Model | Advanced Model | Pro Model |
---|---|---|---|
Operating Frequency | 180MHz | 207MHz (+15%) | 260MHz (+44%)* |
Access Time | 40ns | 34ns (-15%) | 28ns (-20%) |
Operating Temp Range | 0°C to 70°C | -20°C to 85°C | -40°C to 105°C |
Technical Breakthroughs:
Version Selection Guide:
*Pro Model’s frequency exceeds industry benchmarks by 20%, ensuring superior performance in resource-intensive tasks.
Category | Usage Scenarios | Characteristics | Advantages | Disadvantages |
---|---|---|---|---|
Operating Frequency | Real-time data processing, IoT gateways | 200MHz ▲1 (33% faster than industry standard 166MHz SPI memories) | Enables high-speed data transfers in edge computing devices | Requires robust thermal management for sustained operation |
Memory Capacity | Embedded systems, industrial control | 512Mb ▲1 (double the capacity of standard 256Mb PSRAM chips) | Supports larger datasets for complex applications like AI at the edge | Higher power consumption compared to smaller-capacity alternatives |
Interface Type | High-bandwidth applications | Octal SPI ▲1 (supports 8-bit transfers vs. Quad SPI’s 4-bit) | Doubles data throughput for applications like video streaming or sensors | Requires compatible host controllers to leverage full bandwidth |
Package Type | Automotive, aerospace | 24-FBGA ▲1 (enhanced heat dissipation vs. QFN packages) | Superior thermal performance in high-temperature environments | Larger footprint than smaller packages like WLCSP |
Access Time | Embedded storage, caching | 35ns ▲1 (5ns faster than standard PSRAM’s 40ns access time) | Reduces latency in time-critical operations like real-time logging | May not match the speed of faster SRAM alternatives |
Power Consumption | Battery-operated devices | 1.8V ▲1 (47% lower power vs. 3.3V industry-standard PSRAM) | Extends battery life in IoT sensors and wearables | Lower voltage may require additional circuitry for compatibility |
⭐⭐⭐⭐⭐ Alex Reynolds - Industrial Control Systems Developer
"We integrated the S80KS5123GABHI020 PSRAM chip into our new line of programmable logic controllers, and the performance has been outstanding. The 200MHz SPI Octal I/O interface significantly reduced data latency compared to the quad-SPI chips we used before. We’re seeing real-time response times under 35ns—exactly as specified. The 24-FBGA package also soldered cleanly on our reflow line with no thermal warping."Purchase Date: February 2025 | Usage Period: 4 months
⭐⭐⭐⭐⭐ Priya Mehta - Embedded Systems Engineer, Smart Sensor Startup
"This PSRAM chip is a game-changer for our edge computing nodes. The 512Mb capacity gives us room to buffer sensor data without external flash, and the 1.8V low-power operation is perfect for battery-powered deployments. We’ve been running field tests for six months across varying temperatures, and the chip hasn’t skipped a beat—even in sub-zero conditions. The RoHS-compliant, lead-free design also helped us pass environmental certification smoothly."Purchase Date: October 2024 | Usage Period: 8 months
⭐⭐⭐⭐☆ Jordan Lee - Automotive Infotainment R&D
"Used in a prototype dashboard display controller, this PSRAM delivered excellent throughput for graphics caching. The SPI Octal I/O made a noticeable difference in UI rendering speed. We did have to double-check our PCB layout to ensure impedance matching for the high-speed lines, but once that was tuned, stability was rock-solid. Would love to see a plastic-body variant for cost-sensitive production models, but the standard ceramic FBGA performs flawlessly."Purchase Date: January 2025 | Usage Period: 5 months
⭐⭐⭐⭐⭐ Marcus Wu - DIY Electronics Enthusiast
"I built a custom fitness tracker using this chip, and I’m amazed at how easy it was to integrate despite its small 24-FBGA footprint. With the right stencil and hot-air rework, I hand-soldered it successfully. The 35ns access time keeps the OLED display snappy, and the memory handles continuous heart-rate logging without hiccups. Great documentation and clear pinout—rare for SMD memory ICs at this price point."Purchase Date: April 2024 | Usage Period: 7 months
⭐⭐⭐⭐☆ Elena Vasquez - Industrial Automation Technician
"Deployed in a batch of motor control units across our production floor. The PSRAM has held up well under constant vibration and temperature swings. Our only minor issue was initial sensitivity to humidity during storage—once we started using anti-static dry packs, the solder ball integrity improved. Now, yield rates are over 99%. A solid choice for industrial-grade embedded memory."Purchase Date: November 2024 | Usage Period: 6 months
Average Rating: 4.7/5 ⭐ (89 Reviews)
Dr. Alan Foster - Semiconductor Design Consultant
"The S80KS5123GABHI020 stands out in the mid-tier PSRAM market with its balanced blend of speed, density, and integration ease. Its 200MHz Octal SPI interface is particularly valuable for designers moving away from legacy parallel memories. I recommend it for any application where power efficiency, compact layout, and deterministic access times are critical—especially in industrial IoT and automotive edge modules."
Lena Park - High-Density PCB Design Expert
"In over a decade of designing compact embedded systems, I’ve found the 24-FBGA package of this PSRAM to be one of the most reliable for fine-pitch SMD layouts. The ball grid array provides excellent thermal dissipation and mechanical stability. Just ensure your reflow profile is precise—this chip rewards good process control with long-term reliability."
Posted: 2 days ago
"Using this PSRAM in a vision processing module. The 512Mb capacity handles frame buffers effortlessly, and the 200MHz speed keeps the NPU fed. No bottlenecks detected. Highly recommend for AIoT applications."
Posted: 1 week ago
"Ran thermal cycling from -40°C to +85°C for 72 hours. Zero memory errors. The industrial temp rating is legit. Perfect for under-hood electronics."
Posted: 3 weeks ago
"Used in student projects for real-time data logging. Clear datasheet and good support. Only downside: limited availability in sample kits."
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