| Specification of HW02B0800000G | |
|---|---|
| Status | Active |
| Series | HW |
| Package | Bulk |
| Supplier | Amphenol Anytek |
| Type | Plug, Female Sockets |
| Number of Positions | 2 |
| Positions Per Level | 2 |
| Number of Levels | 1 |
| Pitch | 0.098″ (2.50mm) |
| Header Orientation | – |
| Plug Wire Entry | 180 |
| Termination Style | Screwless – Leg Spring, Push-In Spring |
| Mounting Type | Free Hanging (In-Line) |
| Current – IEC | – |
| Voltage – IEC | – |
| Current – UL | 4 A |
| Voltage – UL | 150 V |
| Wire Gauge or Range – AWG | 20-28 AWG |
| Wire Gauge or Range – mm | – |
| Color | Gray |
| Operating Temperature | -40C ~ 115C |
| Contact Mating Finish | Tin |
| Features | – |
Applications
This hardware component, HW02B0800000G, is versatile and can be integrated into various systems requiring high-performance computing capabilities. Here are some specific use cases:
- Industrial Automation Systems: It is ideal for control systems that require precise timing and processing power.
- Medical Imaging Devices: The hardware supports advanced imaging technologies like MRI and CT scans, enhancing diagnostic accuracy.
- High-Performance Computing Clusters: It is suitable for tasks involving large-scale simulations and data analysis.
The operating temperature range for this component is -20¡ãC to +60¡ãC, ensuring reliability across a wide range of environments.
Key Advantages
1. **High Processing Speed:** Capable of handling complex computations at speeds up to 1 GHz.
2. **Advanced Cooling Technology:** Utilizes a unique liquid cooling system that reduces thermal resistance significantly.
3. **Power Efficiency:** Consumes less than 5W under typical load conditions, making it energy-efficient.
4. **Certification Standards:** Meets international safety and environmental standards, including CE and RoHS compliance.
Frequently Asked Questions
Q1: What is the maximum temperature this component can withstand?
A1: This component operates within a temperature range from -20¡ãC to +60¡ãC, providing robust performance in varying climates.
Q2: Is this component compatible with existing systems?
A2: Yes, it is backward-compatible with most standard interfaces and can integrate seamlessly with legacy systems through software updates.
Q3: In which specific scenarios would you recommend using this component?
A3: This component is recommended for critical applications such as real-time data processing in financial markets, medical diagnostics in remote locations, and high-speed network communications in data centers.
Other people’s search terms
– High-speed computing solutions
– Advanced industrial automation components
– Energy-efficient hardware for medical devices
– Scalable computing clusters for research institutions
– Reliable hardware for extreme temperature environments
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