Application Areas | Capacitor Type | Picture | Recommended choice |
Server Motherboard | Multilayer polymer solid aluminum electrolytic capacitor | MPS,MPD19,MPD28,MPU41 | |
Conductive polymer tantalum electrolytic capacitors | TPB19,TPD19,TPD40 | ||
Polymer solid aluminum electrolytic capacitor | VPC,VPW | ||
NPC |
To ensure stable operation of servers under high-load conditions, motherboards require capacitors with low ESR, high reliability, heat resistance, and long life.
- Stacked Polymer Solid Aluminum Electrolytic Capacitors: Featuring an ultra-low ESR of 3mΩ, these capacitors help reduce energy loss during power conversion, thus improving power efficiency. Stacked capacitors effectively filter out ripple and noise from the power supply, providing a clean and stable power source for server motherboards.
- Conductive Polymer Tantalum Capacitors: Known for their fast frequency response, these capacitors are ideal for energy storage and filtering in high-frequency circuits. They help minimize the impact of high-frequency noise on the circuit, enhancing data transmission accuracy and stability.
- Polymer Solid Aluminum Electrolytic Capacitors: With low ESR, these capacitors respond quickly to current demands from server components, ensuring stable output during load fluctuations. The low ESR also reduces power loss and enhances power conversion efficiency, supporting sustained, high-performance operation of servers in high-load environments.
PART 02 Server Power Supply
Application Areas | Capacitor Type | Picture | Recommended choice |
Server Power Supply | Liquid Snap-in Aluminum Electrolytic Capacitor | CW3 | |
Polymer Hybrid Aluminum Electrolytic Capacitors | VHT | ||
NHT | |||
Polymer solid aluminum electrolytic capacitors | NPC | ||
Conductive polymer tantalum electrolytic capacitors | TPD40 | ||
Multilayer polymer solid aluminum electrolytic capacitors | MPD19,MPD28 |
The increasing power consumption of server components such as processors and GPUs demands power supplies capable of long-term, fault-free operation, wide voltage input, stable current output, and overload handling during computational fluctuations. The use of third-generation semiconductor materials (SiC, GaN) has greatly advanced server miniaturization and significantly improved operating efficiency. In July, Navitas released its new CRPS185 4.5kW AI data center server power solution, with YMIN providing high-capacity, compact capacitor solutions. High-performance CW3 liquid can capacitors and LKM liquid plug-in capacitors are recommended for the input side of the server power supply, while the stable and reliable NPX solid capacitors are suggested for the output side. YMIN collaborates with active component solution providers to drive data center advancements.
PART 03 Server Storage
Application Areas | Capacitor Type | Picture | Recommended choice |
Server Storage | Conductive polymer tantalum electrolytic capacitors | TPD15,TPD19 | |
Multilayer polymer solid aluminum electrolytic capacitors | MPX,MPD19,MPD28 | ||
Polymer hybrid aluminum electrolytic capacitors | NGY,NHT | ||
Liquid aluminum electrolytic capacitors | LKM,LKF |
As a core component, SSDs must have high read/write speeds, low latency, high storage density, and a compact design, while ensuring data integrity during power loss.
- Polymer Hybrid Aluminum Electrolytic Capacitors: With their high capacitance density, these capacitors can quickly respond and provide the necessary current, ensuring smooth SSD operation under high loads and preventing performance degradation or data loss due to insufficient current supply.
- Multilayer Polymer Solid Aluminum Electrolytic Capacitors: Featuring low ESR (Equivalent Series Resistance), these capacitors help reduce energy loss during charging and discharging, thus providing more stable voltage output.
-Conductive Polymer Tantalum Electrolytic Capacitors: Known for their ultra-high capacitance density, these capacitors store more charge in a limited space, providing stronger power support for server storage. The combination of stable DC support and high capacitance density allows the SSD to quickly respond to instantaneous power demands, ensuring continuous data transmission and storage.
PART 04 Server Switches
Application Areas | Capacitor Type | Picture | Recommended choice |
Server Switch | Multilayer polymer solid aluminum electrolytic capacitors | MPS,MPD19,MPD28 | |
Polymer solid aluminum electrolytic capacitors | NPC |
To provide higher bandwidth and lower latency, meeting the data transmission efficiency and horizontal scalability requirements of AI computing tasks, servers require switches to have high performance, high reliability, flexible configuration, and good expandability.
- Polymer Solid Aluminum Electrolytic Capacitors: With their ability to withstand large ripple currents, these capacitors can handle complex current load variations, helping switches maintain stability when dealing with rapidly changing network traffic. Additionally, these capacitors have strong resistance to high-current surges, effectively protecting circuits from damage during large current impacts. This prevents circuit failures due to instantaneous high currents, ensuring stable operation of switches under harsh conditions.
- Stacked Polymer Solid Aluminum Electrolytic Capacitors: Featuring ultra-low ESR (below 3mΩ) and a single ripple current capacity of 10A, these capacitors reduce energy loss and improve the energy efficiency of switches. The high ripple current tolerance ensures that stacked capacitors maintain stable current output when the switch processes large amounts of data, guaranteeing smooth network traffic transmission.
PART 05 Server Gateway
Application Areas | Capacitor Type | Picture | Recommended choice |
Server Gateway | Multilayer polymer solid aluminum electrolytic capacitor | MPS,MPD19,MPD28 |
As a critical hub for data transmission, server gateways are evolving towards high performance, low energy consumption, and high integration. However, existing gateways still face challenges in power management, filtering capabilities, heat dissipation, and spatial layout.
- Multilayer Polymer Solid Aluminum Electrolytic Capacitors: The ultra-low ESR (below 3mΩ) of these capacitors means that energy loss at high frequencies is minimal, helping to reduce energy loss during the power conversion process and improving power efficiency. Additionally, their powerful filtering capability and ultra-low ripple temperature rise effectively suppress power fluctuations and ripple noise. This reduction in noise interference significantly enhances data transmission accuracy and stability when handling high-speed data communications.
Conclusion
From motherboards to power supplies, from storage to gateways, and switches, YMIN capacitors, with their low ESR, high capacitance density, resistance to large ripple currents, and high-temperature tolerance, have become essential core components supporting the efficient and stable operation of servers. They fully contribute to the technological innovation and performance enhancement of critical server equipment. Choose YMIN capacitors to build a more stable and reliable operating environment for your servers.
Post time: Nov-11-2024