Introduction
Wireless networks rely on different frequency bands to send and receive signals. Each frequency band has unique strengths and weaknesses that make it better suited for certain situations. In this white paper, we will explore the four main Industrial, Scientific, and Medical (ISM) frequency bands commonly used in wireless network deployments: 900 MHz, 2.4 GHz, 5 GHz, and 6 GHz. By the end, you will understand how these bands compare in terms of range, speed, interference, and device compatibility.
900 MHz Band
Overview: The 900 MHz band is one of the earliest ISM bands used for wireless communication. It operates at a relatively low frequency.
Pros:
- Long Range: Signals travel farther than higher-frequency bands.
- Good Penetration: Can pass through walls, trees, and obstacles more easily.
- Ideal for Rural Areas: Works well where long-distance coverage is needed.
Cons:
- Lower Speeds: Limited bandwidth means slower data transfer rates.
- Limited Device Support: Not commonly used in modern consumer Wi-Fi devices.
2.4 GHz Band
Overview: This is the most widely used frequency band for Wi-Fi and many household devices.
Pros:
- Wide Compatibility: Nearly all Wi-Fi-enabled devices can use 2.4 GHz.
- Better Range: Provides good coverage across homes and offices.
- Wall Penetration: Works reasonably well through solid objects.
Cons:
- Crowded Spectrum: Used by microwaves, Bluetooth, and many Wi-Fi devices, leading to interference.
- Lower Speeds Compared to Higher Bands: Cannot support the fastest data rates.
5 GHz Band
Overview: A higher-frequency band that has become the standard for faster Wi-Fi connections.
Pros:
- High Speeds: Supports faster data rates for streaming, gaming, and large downloads.
- Less Interference: Fewer household devices use this band compared to 2.4 GHz.
- Multiple Channels: Provides more options to reduce congestion.
Cons:
- Shorter Range: Signals weaken faster with distance.
- Poor Wall Penetration: Less effective at going through solid objects.
- Not Always Supported by Older Devices: Some legacy equipment cannot use 5 GHz.
6 GHz Band
Overview: The newest Wi-Fi band, enabled by Wi-Fi 6E, offering wide channels and high speeds.
Pros:
- Ultra-Fast Speeds: Designed for next-generation applications like VR and high-resolution streaming.
- Very Low Interference: Since it is new, there is little congestion.
- Large Bandwidth: Offers more spectrum for devices, reducing signal overlap.
Cons:
- Limited Device Support: Only the newest devices support Wi-Fi 6E and 6 GHz.
- Short Range: Works best in the same room as the access point.
- Poor Wall Penetration: Similar to 5 GHz, but even more limited.
Summary Table
| Band | Range | Speed | Wall Penetration | Device Support | Interference |
| 900 MHz | Long | Low | Strong | Limited | Low |
| 2.4 GHz | Medium | Medium | Good | Very High | High |
| 5 GHz | Short | High | Weak | High | Medium |
| 6 GHz | Very Short | Very High | Weakest | Limited (new) | Very Low |
Visual Comparison Chart
Range 900 MHz ──────────────
2.4 GHz ────────
5 GHz ────
6 GHz ──
Speed 900 MHz ░░
2.4 GHz ░░░░
5 GHz ░░░░░░░
6 GHz ░░░░░░░░░
Conclusion
Each ISM frequency band serves a unique purpose in wireless networking. 900 MHz is excellent for long-range but slower connections. 2.4 GHz provides broad compatibility but struggles with interference. 5 GHz offers a balance of speed and performance for most modern devices, while 6 GHz unlocks the future of ultra-fast, low-latency connections—though only with the newest technology.
When designing or deploying a wireless network, the right frequency band depends on the trade-off between range, speed, and compatibility. Understanding these differences ensures better performance and reliability in both home and enterprise networks.