Wireless Touch Panel with Intercom Reference Guide
Table Of Contents
- MVP-8400iModero® ViewPoint® Wireless Touch Panel with Intercom
- MVP-8400i Modero Viewpoint Wireless Touch Panel With Intercom
- MVP-BP Power Pack
- NXA-CFSP Compact Flash
- Wireless Interface Cards
- Configuring Communications
- Modero Setup and System Settings
- Wireless Settings Page - Wireless Access Overview
- Configuring a Wireless Network Access
- Step 1: Configure the Panel’s Wireless IP Settings
- Step 2: Configure the Card’s Wireless Security Settings
- Step 3: Choose a Master Connection Mode
- Using G4 Web Control to Interact with a G4 Panel
- Using your NetLinx Master to control the G4 panel
- Upgrading MVP Firmware
- Setup Pages
- Navigation Buttons
- Setup Pages
- Information
- Protected Setup Pages
- Protected Setup Navigation Buttons
- G4 Web Control Page
- Calibration Page
- Wireless Settings Page
- Wireless Security Page
- Open (Clear Text) Settings
- Static WEP Settings
- WPA-PSK Settings
- EAP-LEAP Settings
- EAP-FAST Settings
- EAP-PEAP Settings
- EAP-TTLS Settings
- EAP-TLS Settings
- Client certificate configuration
- System Settings Page
- Other Settings
- Tools
- Programming
- Panel Calibration
- Appendix A: Text Formatting
- Appendix B - Wireless Technology
- Appendix C: Troubleshooting
- Checking AMX USBLAN device connections via Windows Device Manager
- Checking AMX USBLAN device connections via NetLinx Studio
- USB Driver
- Panel Not in Listed As a Connected Device
- Connection Status
- Panel Doesn’t Respond To Touches
- Batteries Will Not Hold Or Take A Charge
- Modero Panel Isn’t Appearing In The Online Tree Tab
- MVP Can’t Obtain a DHCP Address
- My WEP Doesn’t Seem To Be Working
- NetLinx Studio Only Detects One Of My Connected Masters
- Can’t Connect To a NetLinx Master
- Only One Modero Panel In My System Shows Up
- Panel Behaves Strangely After Downloading A Panel File Or Firmware
- Panel Fails to Charge in MVP-WDS
Appendix B - Wireless Technology
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MVP-8400i Modero Viewpoint Wireless Touch Panels
Although the calculations required to encrypt data with WEP can impact the performance of
your wireless network, it's generally seen only when running benchmarks, and not large
enough to be noticeable in the course of normal network usage.
Terminology
802.1x
IEEE 802.1x is an IEEE standard that is built on the Internet standard EAP
(Extensible Authentication Protocol). 802.1x is a standard for passing EAP
messages over either a wired or wireless LAN. Additionally, 802.1x is also
responsible for communicating the method with which WAPs and wireless users can
share and change encryption keys. This continuous key change helps resolve any
major security vulnerabilities native to WEP.
AES
Short for Advanced Encryption Standard, is a cipher currently approved by the NSA
to protect US Government documents classified as Top Secret. The AES cipher is
the first cipher protecting Top Secret information available to the general public.
CERTIFICATES (CA)
A certificate can have many forms, but at the most basic level, a certificate is an
identity combined with a public key, and then signed by a certification authority.
The certificate authority (CA) is a trusted external third party which "signs" or
validates the certificate. When a certificate has been signed, it gains some
cryptographic properties. AMX supports the following security certificates within
three different formats:
- PEM (Privacy Enhanced Mail)
- DER (Distinguished Encoding Rules)
- PKCS12 (Public Key Cryptography Standard #12)
Typical certificate information can include the following items:
- Certificate Issue Date
- Extensions
- Issuer
- Public Key
- Serial Number
- Signature Algorithm
- User
- Version
MIC
Short for Message Integrity Check, prevents forged packets from being sent.
Through WEP it was possible to alter a packet whose content was known even if it
had not been decrypted.