Business volume discounts
Technical guidance
Preparation & staging
QC · ON · AB · BC
Product Features
Technical Overview
This internal power cord features a dedicated connector interface compatible with GPU power requirements in Supermicro server systems. The 1.2 ft length provides sufficient reach for GPU installation in various server configurations while minimizing excess cable that could impede airflow or interfere with other components.
The cord is engineered to handle the power demands of modern GPUs used in computational acceleration, AI inference, and high-performance computing applications. Its construction ensures reliable power delivery with minimal voltage drop across the specified length.
This section brings together practical product details such as Device Supported, Cord Length, so buyers can judge configuration, deployment fit, and day-to-day suitability with less guesswork.
Key Product Advantages
The Supermicro CBL-PWEX-1059 internal power cord delivers essential power connectivity for GPU expansion in enterprise server environments. Its specialized design addresses the unique requirements of GPU power delivery within constrained server chassis.
Server-Grade Reliability
Engineered specifically for Supermicro server platforms, this power cord meets the durability and electrical standards required for continuous operation in data center environments.
- Enterprise-grade construction
- Stable power delivery
- Server-optimized design
Optimized Length
The 1.2 ft (0.36 m) length provides sufficient reach for GPU installation while maintaining clean cable management and proper airflow within server chassis.
- Precise routing
- Airflow consideration
- Space-efficient design
Deployment / Use Cases
This internal power cord is essential for GPU expansion in Supermicro server systems, particularly in computational acceleration and AI inference deployments. It enables reliable power delivery to high-performance GPU cards that require dedicated power connections beyond what standard PCIe slots provide.
Primary deployment scenarios include AI training servers, scientific computing clusters, rendering workstations, and any application requiring GPU acceleration within Supermicro server platforms. The cord is specifically compatible with the Supermicro SuperServer 1029GQ-TNRT Server, ensuring proper fit and electrical compatibility in that platform.
GPU Server Expansion
Enables GPU installation in Supermicro servers for computational acceleration, AI inference, and high-performance computing applications requiring dedicated GPU power connections.
Server Platform Compatibility
Specifically designed for compatibility with the Supermicro SuperServer 1029GQ-TNRT Server, ensuring proper electrical and mechanical integration within that platform.
Highlights
- Supermicro CBL-PWEX-1059 internal power cord for GPU applications
- 1.2 ft (0.36 m) length optimized for server chassis routing
- Compatible with Supermicro SuperServer 1029GQ-TNRT Server
- Designed specifically for graphics processing unit power delivery
- Enterprise-grade construction for server environments
- Enables GPU expansion in Supermicro server platforms
- Supports computational acceleration and AI inference workloads
- Maintains clean cable management and proper airflow
Specifications
| Specifications | |
|---|---|
| Manufacturer | Supermicro Computer, Inc |
| Manufacturer Part Number | CBL-PWEX-1059 |
| Brand Name | Supermicro |
| Product Name | Internal Power Cord |
| Product Type | Internal Power Cord |
| Technical Information | |
| Device Supported | Graphics Processing Unit |
| Physical Characteristics | |
| Cord Length | 1.2 ft (0.36 m) |
| Miscellaneous | |
| Compatibility | Supermicro SuperServer 1029GQ-TNRT Server |
FAQ
What is the Supermicro CBL-PWEX-1059 power cord designed for?
The Supermicro CBL-PWEX-1059 is an internal power cord specifically engineered for graphics processing unit (GPU) power delivery within Supermicro server systems. It provides a dedicated power connection between the server's power supply and GPU cards, enabling reliable operation for computational acceleration, AI inference, and high-performance computing applications.
What length is the CBL-PWEX-1059 power cord?
This internal power cord measures 1.2 ft (0.36 m) in length. This specific dimension provides sufficient reach for GPU installation within server chassis while minimizing excess cable that could impede airflow or interfere with other components, maintaining optimal cable management in constrained server environments.
Which Supermicro server is compatible with this power cord?
The CBL-PWEX-1059 power cord is specifically compatible with the Supermicro SuperServer 1029GQ-TNRT Server. This compatibility ensures proper electrical and mechanical integration, including connector fit and power delivery specifications matched to that server platform's GPU power requirements.
Can this power cord be used with other server brands or models?
This power cord is designed specifically for Supermicro server platforms, particularly the SuperServer 1029GQ-TNRT Server. While it may physically connect to similar GPU power interfaces, optimal performance and compatibility are guaranteed only with the specified Supermicro systems due to electrical specifications and connector design tailored to those platforms.
What types of applications require this GPU power cord?
This power cord supports GPU-accelerated applications including AI training and inference, scientific computing, 3D rendering, machine learning, and other high-performance computing workloads deployed on Supermicro server platforms. It enables reliable power delivery to GPUs that require dedicated power connections beyond standard PCIe slot provisions.
Why is the 1.2 ft length specifically chosen for this power cord?
The 1.2 ft (0.36 m) length balances reach requirements with space constraints in server chassis. This dimension provides sufficient cable to route from power supply to GPU while minimizing excess that could impede airflow, complicate cable management, or interfere with other components—critical considerations for maintaining optimal server cooling and serviceability.