- Autonomous APs
- Lightweight APs
Cisco APs offer multiple configuration options. Some of them support external antennas, some support internal antennas, and some are to be deployed outdoors. Still others are de- signed to be deployed indoors. Some APs are designed to be implemented for wide-area networking and bridging purposes and, while operating as a bridge, may also allow client connections. The point is that Cisco APs can serve a number of purposes.
The benefit of the CUWN APs is that they are zero-touch management, assuming that Layer 2 connectivity is already in place. As soon as they are plugged in and powered on, you don’t have to do anything else at the AP level. The models that you need to be familiar with for the CCNA Wireless exam include the 1130AG, 1240AG, 1250AG, 1300, and 1400 series wireless bridges.
The 1130, 1240, and 1250 can be both autonomous and lightweight APs. Whereas the 1300 and 1400 series are designed to operate as bridges, the 1300 series can also sup- port wireless clients. In turn, the 1400 series supports bridging only. Another model is the outdoor mesh 1500 series, which supports only LWAPP, so that would be designed for a lightweight scenario only.
Cisco is known for being ahead of the curve. That’s where the special functionality of the 1250AG comes in. The 1250AG is one of the first access points to support the 802.11n draft version 2.0 standard and is the basis for all 802.11 Wi-Fi interoperability testing. For a client vendor to get the v2.0 stamp of approval, it must be validated against the 1250, and the 1250 is the only AP used during this validation.
The 1130AG
The 1130AG, shown in Figure 10-3, is a dual-band 802.11 a/b or g AP that has integrated antennas.
The 1130AG can operate as a standalone device or in lightweight AP mode. It also can op- erate as a Hybrid Remote Edge AP (H-REAP) device. An H-REAP device operates on the far side of a WAN, and its controller is back at the core site.The 1130AG is 802.11i/WPA2-compliant, and it has 32 MB of RAM and 16 MB of flash memory. The 1130 AP typically is deployed in office or hospital environments. Naturally, the internal antennas do not offer the same coverage and distance as APs that are designed for external antennas. Consider the 1130s. They have 3 dB gain and 4.5 dB gain for the 2.4- and 5-GHz frequencies, respectively. If you were to compare the 1131 to the 1242 with the 2.2 dipole antennas, you would see a larger coverage area than with the 1242.
The 1240AG
The 1240AG series AP, shown in Figure 10-4, is also a dual-band 802.11 a/b or g device, similar to the 1130AG; however, it supports only external antennas.
Those external antennas would connect using the RP-TNC connectors. The 1240AG can operate as an autonomous AP and in lightweight AP mode. Like the 1130AG, it also can operate in H-REAP mode. It too is 802.11i/WPA2-compliant.
The 1250 Series AP
Shown in Figure 10-5, the 1250 series AP is one of the first enterprise APs to support the 802.11n draft version 2.0.
Because it supports the 802.11n draft standard, you can get data rates of about 300 Mbps on each radio and the 2-by-3 multiple input and multiple output technology. The 2-by-3 is discussed in Chapter 6, “Overview of the 802.11 WLAN Protocols.” Also, because the 1250 is modular, it can easily be upgraded in the field. It operates in controller-based and standalone mode and is also 802.11i/WPA2-compliant.
The 1250 is designed for a more rugged type of indoor environment. You might see this at more hazardous locations such as packaging plants, or in situations where you might need
to place an antenna in a hazardous location and the AP elsewhere. You might see this type of AP in factories and hospitals. It has 64 MB of DRAM and 32 MB of flash memory. It has 2.4-GHz and 5-GHz radios.
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