HPE R/T2200 G4 Extended Runtime Module

The HPE R/T2200 G4 Extended Runtime Module (ERM) is engineered to deliver reliable, enterprise-grade power resilience for demanding server environments. Designed to complement HPE ProLiant systems, this ERM expands graceful shutdown capabilities and preserves critical workloads when power integrity is challenged by outages, sags, or fluctuations. By integrating a robust battery solution with intelligent power management, the R/T2200 G4 ERM helps data centers maintain uptime, protect data integrity, and support service-level agreements even when the electrical supply is not perfect. This module is built for durable operation in data center conditions, with emphasis on seamless compatibility, monitoring, and long-term reliability. For IT teams seeking to minimize downtime and maximize business continuity, the HPE R/T2200 G4 ERM provides a straightforward upgrade path that aligns with existing server management tools and lifecycle processes.

• The HPE R/T2200 G4 Extended Runtime Module is purpose-built to extend the operational window of compatible servers during power interruptions. It augments the system’s resilience by supplying additional runtime, which allows for orderly shutdowns or continued operation through short outages, reducing the risk of data loss and system corruption. This capability is essential for mission-critical applications, virtualized environments, and databases that demand steady, uninterrupted performance. With an ERM in place, administrators gain a buffer between momentary power disturbances and the point at which server resources would otherwise be compromised, helping maintain business continuity even in less-than-ideal electrical conditions.
• In terms of management and reliability, the ERM integrates with standard server monitoring and management workflows. It works alongside the server’s integrated management controllers to report on battery health, charge status, and remaining runtime, enabling proactive maintenance and accurate capacity planning. The module is designed to respond to changing power conditions in real time, providing a predictable, measurable extension of runtime that can be factored into downtime planning, backup strategies, and disaster recovery procedures. This visibility supports IT teams in making informed decisions about workload placement, failover configurations, and energy policies.
• Physical design and installation considerations are focused on ease of deployment and long-term durability. The R/T2200 G4 ERM slides into a dedicated extension bay within supported HPE servers, with connectors and latches engineered for secure seating and reliable electrical contact. The unit is built to withstand typical data center environments, including operating temperature ranges and vibration, while maintaining a compact footprint that does not overly encroach on chassis space. Operators can expect straightforward replacement or upgrading processes as part of ongoing server lifecycle management, minimizing downtime during maintenance windows.
• Operational efficiency and energy management are central to the ERM’s value proposition. By providing longer run times without requiring a complete system shutdown, it helps stabilize workloads that are sensitive to power fluctuations. The ERM also contributes to smoother maintenance cycles and more flexible scheduling of critical updates. Its design supports efficient battery chemistry and charge control, balancing reliability with longevity, so administrators can rely on steady performance over the module’s service life. This optimization translates into better uptime metrics, higher user satisfaction, and stronger protection for data-heavy operations.
• Compatibility and support are tailored to align with HPE’s enterprise ecosystem. While exact compatibility depends on server model and generation, the R/T2200 G4 ERM is intended to complement a broad range of ProLiant systems that include ERM bays and appropriate management tooling. When deployed as part of a comprehensive power protection strategy, the ERM works with existing backup power, monitoring software, and firmware updates to deliver a cohesive solution for uptime assurance. For organizations pursuing standardization, the ERM offers a consistent path to extend runtime across multiple servers, reducing complexity in procurement and maintenance programs.

Technical Details of HPE R/T2200 G4 Extended Runtime Module

Technical specifications are typically published in the official supplier listings and product sheets. Because the exact UPC/SKU values are not provided here, this description does not reproduce the full numerical specifications. Please refer to the official HPE documentation or the ec.synnex listing for precise figures such as capacity, voltage, connector types, dimensions, weight, and supported server generations. In general, the HPE R/T2200 G4 Extended Runtime Module is designed to fit into the server’s dedicated ERM bay, provide additional runtime during outages, and integrate with the system’s management features to monitor health and capacity. For precise compatibility and performance data, consult the official product datasheet and validation guides.

How to install HPE R/T2200 G4 Extended Runtime Module

• Power down the server and follow your organization’s safety procedures for handling electrical hardware. Related precautions should be observed to avoid electrical shock or component damage during installation.
• Identify the ERM bay in your HPE server chassis and verify that the R/T2200 G4 module is compatible with your specific server model and firmware version. Compatibility checks help prevent installation problems and ensure proper operation after seating the module.
• Open the chassis access panel or the ERM bay cover as required by your server documentation. Ensure you have a clean, static-free workspace and keep components protected from dust and contaminants during the installation process.
• Align the ERM module with the bay connectors and slide it gently into place until the connectors are fully mated. Confirm that any securing latch or bracket engages properly to hold the module firmly in position and prevent movement during operation.
• Secure the ERM module according to the server’s hardware guidelines, reconnect any external cables if applicable, and reassemble the chassis. Reboot the system and enter the management interface to verify battery status, charge level, and runtime provisioning. Monitor the ERM indicators or the iLO/ILO-based health dashboards to confirm healthy operation and correct integration with the server’s power management framework.
• Run a brief validation by simulating a graceful shutdown or confirming the module’s ability to extend runtime under controlled conditions. Review logs and health alerts to ensure there are no faults or discrepancies in the ERM’s operation. If issues arise, consult the official support resources or your HPE account representative for guidance.

Frequently asked questions

• Q: What is an Extended Runtime Module (ERM)? A: An ERM is a dedicated battery-backed module that fits into a server’s ERM bay to extend runtime during power interruptions. It helps provide additional time for orderly shutdowns, data protection, and continuity of critical workloads by offering a supplemental power reserve beyond what the main power supply can provide.
• Q: Is the HPE R/T2200 G4 ERM hot-swappable? A: Availability of hot-swapping depends on the server model and bay configuration. In many enterprise deployments, ERMs are designed for straightforward replacement with minimal downtime, but you should consult your server’s maintenance procedures to confirm whether power can be maintained during a replacement.
• Q: Will installing the ERM require downtime? A: In typical scenarios, installation is performed during a scheduled maintenance window to ensure a controlled environment. Always follow your organization’s hardware maintenance policies and HPE guidance to avoid any unexpected disruption.
• Q: What benefits can I expect from deploying the ERM? A: The ERM adds extended runtime, enabling graceful shutdowns and protection for critical workloads during outages. It provides better resilience for databases, virtualized environments, and other mission-critical applications while supporting data integrity and uptime commitments.
• Q: How do I verify the ERM is functioning properly? A: After installation, use the server’s management interface (such as iLO) to monitor battery health, charge status, and remaining runtime. Check for alerts or warnings, and review event logs to ensure the ERM is properly integrated and functioning as expected.