Rf-5710 Modem Change To Psk

Introduction

This document describes a sample configuration for Wireless Protected Access (WPA) and WPA2 with a pre-shared key (PSK).

Prerequisites

Select WPA-PSK/WPA2-PSK, then input your own WIFI password in the PSK Password box. Step3: If you have changed the password, please click the Save button. Then you need to reboot the router. Wireless AC Router. As for the 11AC wireless router & AP like the Archer C3200, please refer to the following: Step1: Please refer to FAQ87 to login the router.

Requirements

Cisco recommends that you have knowledge of these topics:

Familiarity with the GUI or the command-line interface (CLI) for the Cisco IOS^® software
Familiarity with the concepts of PSK, WPA, and WPA2

Components Used

The information in this document is based on Cisco Aironet 1260 Access Point (AP) that runs Cisco IOS Software Release 15.2JB.

The information in this document was created from the devices in a specific lab environment. All of the devices used in this document started with a cleared (default) configuration. If your network is live, make sure that you understand the potential impact of any command.

Configure

Configuration with GUI

This procedure describes how to configure WPA and WPA2 with a PSK in the Cisco IOS software GUI: Swiss manager pro.

Set up the Encryption Manager for the VLAN defined for the Service Set Identifier (SSID). Navigate to Security > Encryption Manager, ensure Cipher is enabled, and select AES CCMP + TKIP as the cipher to be used for both SSIDs.
Enable the correct VLAN with the encryption parameters defined in Step 1. Navigate to Security > SSID Manager, and select the SSID from the Current SSID List. This step is common for both WPA and WPA2 configuration.
In the SSID page, set Key Management to Mandatory, and check the Enable WPA checkbox. Select WPA from the drop-down list in order to enable WPA. Enter the WPA Pre-shared Key.
Select WPA2 from the drop-down list in order to enable WPA2.

Configuration with CLI

Notes:
Use the Command Lookup Tool (registered customers only) in order to obtain more information on the commands used in this section.
The Output Interpreter Tool (registered customers only) supports certain show commands. Use the Output Interpreter Tool in order to view an analysis of show command output.

This is the same configuration done within the CLI:

Verify

In order to confirm that the configuration works properly, navigate to Association, and verify that the client is connected:

You can also verify the client association in the CLI with this syslog message:

Troubleshoot

Note: Refer to Important Information on Debug Commands before you use debug commands.

Use these debug commands in order to troubleshoot connectivity issues:

debug dot11 aaa manager keys - This debug shows the handshake that occurs between the AP and the client as the pairwise transient key (PTK) and group transient key (GTK) negotiate.
debug dot11 aaa authenticator state-machine - This debug shows the various states of negotiations that a client passes through as the client associates and authenticates. The state names indicate these states.
debug dot11 aaa authenticator process - This debug helps you diagnose problems with negotiated communications. The detailed information shows what each participant in the negotiation sends and shows the response of the other participant. You can also use this debug in conjunction with the debug radius authentication command.
debug dot11 station connection failure - This debug helps you determine if the clients are failing the connection and helps you determine the reason for failures.

PARIS-(EUROSATORY, Booth #27) - Harris Corporation today announced that its new RF-5710A high-frequency (HF) modem was recently used in a series of NATO tests to select a high-speed HF waveform for NATO use. The new NATO standard, known as STANAG 4539, provides for transmission over long distance HF radio circuits at rates up to 9,600 bps.The United States submitted its new military standard (MIL-STD-188-110B) high-speed HF waveform as a candidate for the new NATO standard. The MIL-STD-188-110B waveform was implemented on a Harris RF-5710A modem, which incorporates a unique adaptive equalizer that allows transmission over HF radio channels at rates up to 12,800 bps.

After extensive testing of the RF-5710A modem at the Defense Research Establishment in the United Kingdom, the MIL-STD-188-110B waveform was selected over several other candidate waveforms.' This new generation of high-speed HF waveforms represent a major technical advance,' said Steve Elvy, director of engineering, Harris Corporation, RF Communications Division, Rochester, N.Y. 'The adoption of MIL-STD-188-110B as the NATO standard is a testimony to the design of the waveform and its implementation in the Harris RF-5710A modem. The new standard will provide significantly faster long-haul radio communications to NATO military users, at sea, on land, and in the air.' The Harris RF-5710A modem is now in production with the new MIL-STD-188-110B (3,200 bps - 12, 800 bps) waveform. It also supports a host of other interoperable waveforms, including; MIL-STD-188-110A, STANAG 5066, STANAG 5065, STANAG 4529, STANAG 4481, STANAG 4415, and STANAG 4285.Harris RF Communications Division is a leading supplier of secure radio communications products, systems and networks for voice and data to military, government, and commercial organizations worldwide.Harris Corporation (NYSE: HRS) is an international communications equipment company focused on providing product, system, and service solutions that take its customers to the next level.

The company provides a wide range of products and service for commercial and government communication markets such as wireless, broadcast, government, and network support. The company has sales and service facilities in nearly 90 countries.# # #For additional information contact Harris Corporation at.Harris Corporation Contact Information:Susan GiuseppettiRF Communications Division716-242-3926Tom HausmanCorporate Headquarters321-727-9131.