FCC ID: 2ABZJ-100-00018 Mimosa C5c

by: Mimosa Networks, Inc. latest update: 2017-08-11 model: 100-00018

Three grants have been issued under this FCC ID from 05/22/2017 to 08/11/2017 (this is one of three releases in 2017 for this grantee). Public details available include frequency information, manuals, and internal & external photos. some products also feature user submitted or linked drivers, instructions, warrantee terms, password defaults, & troubleshooting guides.

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all	frequencies						exhibits	applications
		manual	photos		labels

all exhibits 38
1 ~ 2017-08-11 18
2 ~ 2017-05-22 18
3 ~ 2017-05-22 21

app s				submitted / available
1 2 3	Users Manual	Users Manual	pdf	3.04 MiB	/ June 07 2017
1 2 3	Internal Photos	Internal Photos	pdf	2.62 MiB	February 06 2017
1 2 3	External Photos	External Photos	pdf	2.17 MiB	February 06 2017
1 2 3	ID label	ID Label/Location Info	pdf	894.69 KiB
1 2 3	Label Location	ID Label/Location Info	pdf	27.80 KiB	May 22 2017
1 2 3	Class II Chang Letter	Cover Letter(s)	pdf	534.99 KiB	February 06 2017 / November 08 2017
1 2 3	Confidentiality	Cover Letter(s)	pdf	30.27 KiB	February 06 2017 / November 08 2017
1 2 3	DFS Expedited Request	Cover Letter(s)	pdf	1.23 MiB	February 06 2017 / November 08 2017
1 2 3	Declaration of Authorization	Cover Letter(s)	pdf	503.66 KiB	February 06 2017 / November 08 2017
1 2 3		RF Exposure Info	pdf		February 06 2017 / November 08 2017
1 2 3	Operational Description	Operational Description	pdf		June 02 2017	confidential
1 2 3	Software Security for UNII	Operational Description	pdf		June 02 2017	confidential
1 2 3		Test Report	pdf		February 06 2017 / November 08 2017
1 2 3		Test Report	pdf		February 06 2017 / November 08 2017
1 2 3		Test Report	pdf		February 06 2017 / November 08 2017
1 2 3		Test Report	pdf		February 06 2017 / November 08 2017
1 2 3		Test Report	pdf		February 06 2017 / November 08 2017
1 2 3		Test Report	pdf		February 06 2017 / November 08 2017
1 2 3		Test Report	pdf		February 06 2017 / November 08 2017
1 2 3		Test Setup Photos	pdf		February 06 2017 / November 08 2017
1 2 3		Test Setup Photos	pdf		February 06 2017 / November 08 2017
1 2 3	BOM	Parts List/Tune Up Info	pdf		May 19 2017	confidential
1 2 3	Block Diagram	Block Diagram	pdf		May 19 2017	confidential
1 2 3	Declaration of Conformity FCC subpart 15B	Cover Letter(s)	pdf	67.07 KiB
1 2 3		RF Exposure Info	pdf
1 2 3	Schematics	Schematics	pdf		May 19 2017	confidential
1 2 3		Test Report	pdf
1 2 3		Test Report	pdf		May 19 2017 / May 22 2017
1 2 3		Test Setup Photos	pdf		/ June 07 2017
1 2 3	Tune up Procedure	Parts List/Tune Up Info	pdf		May 19 2017	confidential
1 2 3	Antenna Report Dipole revised	Cover Letter(s)	pdf	4.64 MiB	May 22 2017
1 2 3	Antenna Report Dish	Cover Letter(s)	pdf	674.84 KiB
1 2 3	Operational Description Software Confidentiality5G	Operational Description	pdf		May 19 2017	confidential
1 2 3		RF Exposure Info	pdf
1 2 3	Schematic	Schematics	pdf		May 19 2017	confidential
1 2 3		Test Report	pdf
1 2 3		Test Report	pdf
1 2 3		Test Report	pdf

exhibit
download
text

1 2 3

Users Manual

Users Manual

pdf

3.04 MiB

/ June 07 2017

The information contained in this document is subject to change without notice. This document contains proprietary information which is protected by copyright. All rights are reserved. No part of this document may be photocopied, reproduced, or translated to another language without the prior written consent of Mimosa. Mimosa Client Help Content Mimosa Clients Troubleshooting Guide Table of Contents FAQ's Setup Installation Guide Installation Overview Mounting & Grounding Performance Specifications Default IP Address Reset Process Reset C5/C5c Serial Number Location Receiver Sensitivity Hardware & Materials Power over Ethernet (PoE) C5 Mounting and Grounding C5c Mounting and Grounding NID Details SNR Required for each MCS Error Vector Magnitude (EVM) Quality of Service (Qos)

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..................................................................................................................................... Traceroute

arp -a | findstr -i 20-B5-C6 Mac / Linux:

arp -a | grep -i 20:B5:C6 No CDP / LLDP Support Mimosa radios do not respond to either CDP or LLDP at this time. Related:

Client Setup Overview - Detailed process for configuring your device Copyright 2014 Mimosa Page 1 Mimosa Client Help Content Mimosa Clients Setup Reset Process - Explains how to recover/reset a device if needed Copyright 2014 Mimosa Page 2 Mimosa Client Help Content Mimosa Clients Local Device Reset Product Applicability: C5, C5c Reset Process This process is to restore the device to the factory state when the device is physically available. This process is to restore the device to the factory state when the device is physically available. Follow these steps to reset the radio:

1. 2. 3. 4. 5. 6. 7. Disconnect the Ethernet cable from the radio. Insert a paper clip into the hole next to the Ethernet port to depress the reset button (see image below). Plug the Ethernet cable back in while holding the reset button down. The green LED will blink slowly after 2 seconds, and then fast after 4 seconds. Let go of the reset button when the green LED starts blinking fast. The radio will then reboot for approximately 90 seconds. Connect your computer to the LAN input of the PoE. With a web browser, navigate to 192.168.1.20 (or address assigned by DHCP). The default password is mimosa. C5 Reset Button Copyright 2014 Mimosa Page 3 Mimosa Client Help Content Mimosa Clients Reset Process C5c Reset Button Copyright 2014 Mimosa Page 4 Mimosa Client Help Content Mimosa Clients Reset Process After factory reset, access the device with the default IP address and password, then follow the unlock process again before reuse. It is also good practice to create a configuration backup such that it can be restored in the case of lost passwords. Copyright 2014 Mimosa Page 5 Mimosa Client Help Content Mimosa Clients Finding the Serial Number Reset Process The Mimosa serial number is a 10-digit number used to differentiate radios. This unique number is used as The Mimosa serial number is a 10-digit number used to differentiate radios. This unique number is used as part of the unlock process to ensure genuine product assurance. part of the unlock process to ensure genuine product assurance. There are two ways to find the Serial number on a Mimosa radio:

1. 2. On the back of the radio, you can find the serial number next to the QR code (see images below). Within the user interface, you can find the serial number on the Dashboard under Device Details. C5 Serial Number Label C5c Serial Number Label Copyright 2014 Mimosa Page 6 Mimosa Client Help Content Mimosa Clients Reset Process Copyright 2014 Mimosa Page 7 Mimosa Client Help Content Mimosa Clients Performance SNR Required for Each MCS The table below shows the SNR required for each MCS index as well as the modulation, coding and data rate per stream based on channel width in MHz. Note that each channel uses up to two streams. Examples:

2 x 80 MHz channels operating at MCS 8 with 4 streams would yield 1560 Mbps (390 Mbps * 4 streams). 1 x 40 MHz channel operating at MCS 6 with 2 streams would yield 270 Mbps (135 Mbps * 2 streams). l l Modulation and Coding Scheme (MCS) Index Modulation Coding Required SNR (dB) 20 MHz 7.2 BPSK 1/2 0 5 PHY Data Rate (Mbps/stream) 80 MHz 32.5 40 MHz 15 1 2 3 4 5 6 7 8 9 QPSK QPSK 16-QAM 16-QAM 64-QAM 64-QAM 64-QAM 256-QAM 256-QAM 1/2 3/4 1/2 3/4 2/3 3/4 5/6 3/4 5/6 7.5 10 12.5 15 17.5 20 22.5 25 27.5 14.4 21.7 28.9 43.3 57.8 65 72.2 86.7 n/a 30 45 60 90 120 135 150 180 200 65 97.5 130 195 260 292.5 325 390 433 Related:

Client FAQ: What is the sensitivity for each MCS index?

Copyright 2014 Mimosa Page 8 Mimosa Client Help Content Mimosa Clients Performance Error Vector Magnitude (EVM) The error vector magnitude or EVM describes how well the receiver can detect symbols (data) within a constellation of symbols on the I-Q plane for a particular modulation. It is the difference in RMS power between the point where a symbol is received and where the symbol should be. This difference is caused by noise. When analyzing EVM, the lower the number the better. EVM (dB) EVM (%) Assessment 0

-5

-10

-15

-20

-25

-30

-35 100.0 56.2 31.6 17.8 10.0 5.6 3.2 1.8 Poor Poor Poor OK Good Good Excellent Excellent Copyright 2014 Mimosa Page 9 Mimosa Client Help Content Mimosa Clients Performance Quality of Service (QoS) Support Mimosa radios support four different L2/L3 QoS queues for traffic prioritization. Typically, an upstream router sets values for CoS (L2), or DSCP/TOS (L3) for specific traffic on the post-routing chain. After packets leave the router, they enter the radio where the traffic is queued and sent according to the packet marking. While the radio does not function as a router, it does respect packet markings assigned by the upstream router. Note that these settings can be set or overridden by either A5 Access Control Lists or Application Note that these settings can be set or overridden by either A5 Access Control Lists or Application Prioritization. Prioritization. The table below lists the four QoS queues and corresponding prioritization values for various traffic marking standards. Traffic Queue IEEE P802.1p DSCP Mimosa Weighting

(% of capacity)

(VLAN CoS Priority) TOS BE BK BK BE VI VI VO VO 0 1 2 3 4 5 6 7 0-31 32-63 64-95 96-127 0-7 8-15 16-23 24-31 128-159 32-39 160-191 40-47 192-223 48-55 224-255 56-63 20 10 10 20 30 30 40 40 where, BK = Background (lowest priority) BE = Best Effort VI = Video VO = Voice (highest priority) Mimosa QoS Weighting Mimosa radios dynamically allocate link capacity by expanding or contracting each traffic queue based on the current mix of marked traffic. If there is no traffic in a particular queue, that capacity is divided between the other queues according to their relative weights. Unmarked traffic is processed in the Best Effort (BE) queue by default. Copyright 2014 Mimosa Page 10 Mimosa Client Help Content Mimosa Clients Performance Copyright 2014 Mimosa Page 11 Mimosa Client Help Content Mimosa Clients Client Receiver Sensitivity Specifications Product Applicability: C5, C5C The table below shows sensitivity in dBm for each MCS index. MCS Index Channel Width 40 MHz 80 MHz 20 MHz 9 8 7 6 5 4 3 2 1 0

-70.5

-73.0

-75.5

-78.0

-80.5

-83.0

-85.5

-88.0

-90.5

-93.0

-67.5

-70.0

-72.5

-75.0

-77.5

-80.0

-82.5

-85.0

-87.5

-90.0

-64.5

-67.0

-69.5

-72.0

-74.5

-77.0

-79.5

-82.0

-84.5

-87.0 Copyright 2014 Mimosa Page 12 Mimosa Client Help Content Mimosa Clients Enclosure Ratings Specifications The IP is short for International Protection Marking described in IEC standard 60529. This standard classifies and rates the degree of protection provided against the intrusion of solid objects and liquids into electrical enclosures. The two numbers that follow are used to specify the degree of protection. The higher the number, the better the protection. The first number refers to protection against solid objects. The second number refers to protection against against liquids. IP55 (C5) l l The 5 rating means that the enclosure allows some dust to enter, but not in sufficient quantity to interfere with satisfactory operation of the equipment. The 5 rating means that the enclosure is protected against the effect of water projected by a nozzle (6.3 mm) against the enclosure from any direction. Mounting Hardware Product Applicability: C5, C5c Mounting hardware is provided standard for the C5. The C5 hardware is made from stainless steel, including the hose clamp and ground screw. FlexiMount and J-Mount Both the FlexiMount and J-Mount are Steel, Zinc-plated, and powder-coated white. The included hardware is galvanized Steel. Copyright 2014 Mimosa Page 13 Mimosa Client Help Content Mimosa Clients Specifications Power over Ethernet Specifications Voltage Specifications Mimosa radios require 48 volts, but they accept an input range of 44 to 57 volts on a wide variety of pin combinations. An input voltage of -48 Vdc is also acceptable. The Mimosa PoE for C5 provides 56 volts on 2 pairs of wires so there is less voltage drop over long cable runs up to 100 m (328 feet). C5 radios are compatible with passive C5 radios are compatible with passive PoE only. Do not use an 802.3at or 802.3af PoE with C5. PoE only. Do not use an 802.3at or 802.3af PoE with C5. Reverse Polarity Protection All Mimosa radios include a diode bridge circuit which corrects for reverse polarity on the power inputs, and improves compatibility with 3rd-party PoE injectors and switches that meet the power specifications2. Table 1 below shows valid combinations of +VE and -VE to the B5/B5c on either 2 or 4 wire pairs. All of the combinations below will work so long as the Ethernet signal pairs are connected per the wiring standard. Ethernet Wiring and Signals Ethernet T568B Pair Pin 1 2 1000BASE-T Signal ID DA+

T568A Pair 3 4-Pair PoE Options 2-Pair PoE Options

+ + + -

NA NA NA NA 10

1 2 3 4 5 6 1 2 3 4 5 6 7 8 9

2 3 4 5 6 7 8 3 2 1 1 2 4 4 2 3 1 1 3 4 4 DA-

DB+

DC+

DC-

DB-

DD+

DD-

+ + + -

NA NA

+ -

NA NA +

+ -

+ + NA

NA NA NA NA

+ -

NA NA +

+ + + -

NA NA

NA NA +

NA +

11 12 NA NA NA NA NA NA

NA NA NA NA

NA NA NA NA NA NA NA

Table 1 Radio Input Voltage Polarization Compatibility

+ + + -

NA NA NA NA

Notes:

1. Performance will be limited if a 10/100BASE-T PoE is used. Mimosa client radios are designed for speeds that exceed the capability of these standards. Some 3rd-party PoE injectors may not have a sufficient power budget to deliver full power to all of their ports depending on how many other PoE-powered devices are installed and how much power each device draws. 2. Copyright 2014 Mimosa Page 14 Mimosa Client Help Content Mimosa Clients Related:

Product Specifications: C5, C5c Specifications Copyright 2014 Mimosa Page 15 Mimosa Client Help Content Mimosa Clients Installation Guide Client Installation Overview The C5 ships with this 2-page User Guide. Below are more detailed instructions for each step of the installation process. C5 1. 2. 3. 4. Follow the Radio Unlock process. Follow the Mounting and Grounding process. Follow the POE Connection process. Follow the Client Setup process. C5c 1. 2. 3. 4. Follow the Radio Unlock process. Follow the Mounting and Grounding process. Follow the POE Connection process. Follow the Client/Station Setup process. Copyright 2014 Mimosa Page 16 Mimosa Client Help Content Mimosa Clients Mounting & Grounding Mounting and Grounding the C5 This process ensures that the radio is securely attached to a building or tower and is grounded to protect This process ensures that the radio is securely attached to a building or tower and is grounded to protect against electrical discharge. against electrical discharge. Follow these steps to mount and ground the C5 Radio. 1. Attach the Bracket Assembly to a solid surface with four provided bolts. The holes at each end of the Bracket Assembly are spaced at 90 mm (3.54 inches) on center. Optionally, the bottom portion of the J-mount tube can be separated from the Bracket Assembly and affixed securely to a commercially available crossover plate with u-bolts, or a traffic camera clamp kit. The J-mount tube is 38.1 mm (1.5 inches) in diameter. Copyright 2014 Mimosa Page 17 Mimosa Client Help Content Mimosa Clients Mounting & Grounding 2. Mount the C5 on the J-Mount using the pipe clamp. Copyright 2014 Mimosa Page 18 Mimosa Client Help Content Mimosa Clients Mounting & Grounding 3. Attach to Earth Ground a) Attach a 6 mm2 (10 AWG) ground wire (not included) between the C5 and a suitable grounding location. The provided ground screw is M4 x 4mm with 0.7 thread. b) Install the Mimosa Gigabit NID at the entry point for Electrostatic Discharge (ESD) protection. Copyright 2014 Mimosa Page 19 Mimosa Client Help Content Mimosa Clients Mounting & Grounding 4. Prepare the Ethernet Cabling (not included) and provided protective boot. Push shielded CAT6 cable through hole in the bottom of the boot, applying the provided dielectric silicone around base of boot around cable entry. Crimp a metal RJ45 connector to the CAT6 cable and ensure that the cable shield makes contact with the metal shroud on the RJ45 connector. Apply dielectric silicone around top lip of boot. Pull CAT6 cable back through boot leaving enough to connect to device. Apply a small amount of dielectric silicone to pins. Insert the cable into the RJ45 receptacle and attach the boot to the radio body. Copyright 2014 Mimosa Page 20 Mimosa Client Help Content Mimosa Clients Mounting & Grounding 5. Aim the radio using physical Elevation and Azimuth adjustments on the J-Mount, then check and tighten each of the 10 mm hex nuts until secure. Copyright 2014 Mimosa Page 21 Mimosa Client Help Content Mimosa Clients Mounting & Grounding Mounting and Grounding the C5c This process ensures that the radio is securely attached and grounded to protect against electrical This process ensures that the radio is securely attached and grounded to protect against electrical discharge. discharge. Follow these steps to mount and ground the C5c Radio. 1. Mount the radio Attach the C5c to the desired pole location using the included pole clamp, or directly snap the C5c into an antenna supporting the integrated mount clips. 2. Connect Antenna Cabling a) Connect both RP-SMA male type jumper cables between the chosen antenna and the C5c and tighten. b) Using the provided strips of mastic tape, wrap both of the tightened connectors from the bottom up. Copyright 2014 Mimosa Page 22 Mimosa Client Help Content Mimosa Clients Mounting & Grounding 3. Attach to Earth Ground a) Attach a 6 mm2 (10 AWG) ground wire (not included) between the C5c and a suitable grounding location. The provided ground screw is M4 x 4mm with 0.7 thread. b) Install the Mimosa Gigabit NID at the entry point for Electrostatic Discharge (ESD) protection. C Copyright 2014 Mimosa Page 23 Mimosa Client Help Content Mimosa Clients Mounting & Grounding 4. Connect Ethernet a) Prepare the shielded CAT6 Cabling (not included), and apply a bead of dielectric silicone to Ethernet pins. b) Remove the front plastic cover from the radio, connect the Ethernet cable, and then replace the cover. Copyright 2014 Mimosa Page 24 Mimosa Client Help Content Mimosa Clients Mounting & Grounding M Copyright 2014 Mimosa Page 25 Mimosa Client Help Content Mimosa Clients Mounting & Grounding Network Interface Device (NID) Overview The NID serves two purposes:

1. 2. It was designed first to protect against surge energy from entering a structure in compliance with electrical codes. There is no surge protection on the C5, PoE or G2, and only the C5 and NID have metal shielded Ethernet inputs. While the Ethernet cable shield can behave like a ground (and many service providers treat it as such), it is not a code-compliant grounding solution for surge currents as the cross-sectional area does not have the current carrying capacity of a larger ground wire that would normally be specified for building safety. The NID also serves as a demarcation point for the external portion of service, and provides outdoor technician access so that they dont have to schedule time with a building occupant for testing or troubleshooting between the C5 and A5. Some providers charge end users more money if the problem is inside the building rather than outside. Copyright 2014 Mimosa Page 26 Mimosa Client Help Content Mimosa Clients Mounting & Grounding Security A security fastener tie point is included at the bottom of the NID to thwart and provide evidence of causal tampering. If an unauthorized party wishes to access the network, they could also cut and re-terminate the Ethernet cable in the absence of a NID. In either case, an they would need to bring their own DHCP router and DC power supply to access the customers router, which is presumably also protected by a suitable firewall. They could access the C5 so long as they brought a passive 48V DC power supply, but they would need to know the IP address, password and VLAN if applicable. Most operators filter and manage traffic at upstream routers using VLAN or MAC filtering to prevent unauthorized access such as when end customers do not pay their bill. Copyright 2014 Mimosa Page 27 Mimosa Client Help Content Mimosa Clients Mounting & Grounding Mimosa always recommends using shielded CAT6 cable for performance reasons. When using the NID, Mimosa always recommends using shielded CAT6 cable for performance reasons. When using the NID, Mimosa recommends connecting the cable shield to metal end connectors at both ends of the cable. Mimosa recommends connecting the cable shield to metal end connectors at both ends of the cable. Copyright 2014 Mimosa Page 28 Mimosa Client Help Content Mimosa Clients PoE Connections Power & Data Connections This process ensures the proper PoE connection to a power source, the radio and the LAN. This process ensures the proper PoE connection to a power source, the radio and the LAN. 1. 2. 3. Connect the provided power cable between the power over Ethernet (PoE) adapter and a power source. A surge protector can be installed between the PoE and the power source, but it is not required. Connect a shielded CAT6 Ethernet cable between the Ethernet port labeled "POE" on the GigE PoE adapter and the radio. Connect a shielded CAT6 Ethernet cable between the Ethernet port labeled "LAN" on the GigE PoE adapter and the LAN side of your network, which is typically a switch or router. Copyright 2014 Mimosa Page 29 Mimosa Client Help Content Mimosa Clients Power & Data Connections Copyright 2014 Mimosa Page 30 Mimosa Client Help Content Mimosa Clients Power & Data Connections Related:

LED Status Indicators - External LED behavior based on device status. Copyright 2014 Mimosa Page 31 Mimosa Client Help Content Mimosa Clients Client Setup Client Setup This overview is intended to assist the user with preliminary radio setup prior to deployment. Notes::

Notes Internet access is required to access firmware and online help resources. If the radio is connected to a DHCP server, the default IP addresses shown below will be different. l l 1. 2. 3. 4. 5. 6. 7. 8. 9. l l l l l Download latest Firmware for your device. Connect the PoE to the Radio. Prepare your computer for use. Connect an Ethernet cable between your computer and the PoE port labeled DATA. Ensure that your computer's IP address is different from that of the radio (192.168.1.20), but in the same network. The subnet mask should be the same for both devices (255.255.255.0). Consult operating system documentation for instructions about how to change your computer's IP address. Access the radio in a browser. Open a browser and enter 192.168.1.20 in the address bar. Enter a password that will be used to administer the device. Install firmware image. Select the firmware image from your computer downloaded in step 1 for upload. The radio will validate and install the firmware, and then reboot. Assign a friendly radio name. Navigate to Preferences > General > Device Friendly Name to enter a meaningful radio name. Configure the radios IP address. Navigate to Preferences > Management > Management IP to ensure the settings match your existing network configuration. After changing the radio's IP address adjust your computer's IP address to operate on the same network. Set the link details. Navigate to the Wireless > Link > Link Configuration panel to set a Link Friendly Name. Enter the SSID of the AP to which the Client will connect. Enter the Encryption Key (Passphrase) required for the SSID. Choose operating frequencies. Navigate to Wireless > Channel & Power > Channel & Power Settings. Choose a desired Maximum Channel Width. Set Tx Power to desired level. l l l l l l l l l Copyright 2014 Mimosa Page 32 Mimosa Client Help Content Mimosa Clients General Overview Product Applicability: C5, C5c FCC Compliance This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions:

(1) This device may not cause harmful interference; and

(2) this device must accept any interference received, including interference that may cause undesired operation. Note that user changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. RF Exposure Warning The radiated output power of this device is below the FCC radio frequency exposure limits. Nevertheless, the device should be used in such a manner that the potential for human contact during the normal operation is minimized. In order to avoid the possibility of exceeding the FCC radio frequency exposure limit, human proximity to the access point should be more than 20 cm. Industry Canada Compliance This device complies with Industry Canadas license-exempt RSSs. Operation is subject to the following two conditions:

(1) This device may not cause interference; and

(2) This device must accept any interference, including interference that may cause undesired operation of the device. Follow all safety precautions as dictated by your local regulator in installation. Copyright 2014 Mimosa Page 33 Mimosa Client Help Content Mimosa Clients Overview Accessing the Graphical User Interface Accessing the graphical user interface (GUI) requires that the radio first be connected to power. The Power over Ethernet (PoE) connection process describes the steps to do this. Note that the GUI will be available approximately one minute after applying power. The GUI can be accessed in two ways to facilitate set-up and management. 1. 2. Through the local Ethernet interface (LAN) Remotely through the AP wireless link Via Ethernet interface or in-band through the AP link By default, the device IP address is 192.168.1.20 and can be accessed via the Ethernet port using this IP address in any standard Web browser. To access the device via a locally connected computer initially (on the same LAN or directly to the Ethernet port), the computers IP address must be on the same subnet as the above address. Once you have modified the IP address (static or is DHCP) of the device for remote management purposes (in-band over wireless or over the Ethernet interface), the new specified IP address must be used to access the device. Copyright 2014 Mimosa Page 34 Mimosa Client Help Content Mimosa Clients Logging In Overview After connecting via one of the access methods, the GUI will prompt you to log-in with a password. The default password is "mimosa", and should be changed immediately after login to protect your network since it gives the user read / write privileges. The password can be changed within the Preferences > General > Set Password panel of the GUI. If you are looking for the Mimosa Cloud Log In process, please see Manage User Guide: Logging In. If you are looking for the Mimosa Cloud Log In process, please see Manage User Guide: Logging In. Copyright 2014 Mimosa Page 35 Mimosa Client Help Content Mimosa Clients User Interface Overview Overview When you first log in, youll notice that there is a title bar with the device name shown in the top-right corner, a navigation pane on the left, and a large content pane on the right. The default page shown in the content pane is the Dashboard, which shows a summary of overall performance at a glance, and highlights both radio and link parameters that affect link health. On the left navigation pane, there are four prominent sections: Overview, Wireless, Preferences, and Diagnostics. Each of these sections contains one or more links to pages containing task-related data, controls, and tools used to administer the radioand you can return the Dashboard at any time by clicking on the Dashboard link in the Overview section. The pin in the top corner of the left navigation pane allows you to "pin" open the navigation menu for easier access. Else, the menu contracts to provide more workspace within the GUI. Copyright 2014 Mimosa Page 36 Mimosa Client Help Content Mimosa Clients Overview Copyright 2014 Mimosa Page 37 Mimosa Client Help Content Mimosa Clients The Dashboard Dashboard The Dashboard contains several panels used to group related items. The status panel at the top of the page shows the link SSID, the link status, Link Uptime since association, and Link Availability since the last reboot. Two of the values on this panel contain an information icon that shows more information when you click or hover over it with your mouse cursor. On other panels, detailed help text can be found by clicking on the information icon in the upper right hand corner. Copyright 2014 Mimosa Page 38 Mimosa Client Help Content Mimosa Clients Dashboard Reading the Signal Meter Connected Link Received signal strength is shown in large text in the center of the control, and as a green indicator in the top dial. The objective is to align the green indicator with the blue bar as a guideline during antenna aiming. The resulting half-duplex PHY rates shown at the bottom of the Signal Meter control are correlated with the MCS, and represent raw data across the link without protocol overhead. The following settings and values that affect link quality are listed for reference:

l l l Center Frequency - True center of the first frequency range (no offset) Channel Width - The selected channel width (20, 40 or 80 MHz) Tx Power - Total transmit power level (dBm) Click the Spectrum Analyzer button to access the Spectrum Analyzer, which can also be found on the Channel &

Power page. This will not disturb the link. When a link is not associated, the signal strength and PHY rates are replaced by an indicator of "Disconnected". Copyright 2014 Mimosa Page 39 Mimosa Client Help Content Mimosa Clients Dashboard Reading the Performance Charts IP Throughput and Packet Error Rate (PER) are charted over 60 seconds in 5-second intervals. The newest data shows up on the right and scrolls to the left over time. You can toggle between the charts by clicking on the navigation circles at the bottom of the panel. If enabled, click on the cloud icon to view historical data within the Manage application. The IP Throughput graph plots three lines representing transmit, receive, and aggregate (summed) throughputs at Layer 2. The results here may differ from those measured using speed test tools, due to protocol overhead and encapsulation. Note that internal Bandwidth test results are excluded. The Packet Error Rate (PER) is the number of packets with errors divided by the total number of packets sent within a 5-second period. Lower values result in higher modulation, while higher values indicate the presence of interference and result in lower modulation. Tx PER is an indication that the local radio did not receive an ACK from the remote radio, so is forced to retransmit the same information again. Note: PER will be higher upon initial association, and will usually settle within 30-60 seconds. This is Note: PER will be higher upon initial association, and will usually settle within 30-60 seconds. This is because association requires that the radios listen more carefully for their link partner until they are because association requires that the radios listen more carefully for their link partner until they are linked, and this listening period is subject to more interference until Automatic Gain Control (AGC) and linked, and this listening period is subject to more interference until Automatic Gain Control (AGC) and Rate Adaptation (RA) adjust parameters to accommodate the conditions. PER values are exchanged Rate Adaptation (RA) adjust parameters to accommodate the conditions. PER values are exchanged between radios asynchronously, so the values may not match exactly when referencing both radios at the between radios asynchronously, so the values may not match exactly when referencing both radios at the same time. same time. Copyright 2014 Mimosa Page 40 Mimosa Client Help Content Mimosa Clients Reading Device Details Dashboard The Device Details panel shows two summary tables for the local and remote device configurations and their status. Click on the navigation circles at the bottom of the panel to toggle between the two tables. The table shows the following for both Local and Remote devices:

l l l l l l l l l l Device Name - The friendly name given to each device. (Set in Preferences > General > Naming) Serial Number - The unique identifier for the device assigned at the factory. IP Address - The IP address of each device and how it was assigned. (Set in Preferences > Management) Wireless Mode - Client or Access Point. Ethernet Speed - Data rate and duplex mode of the wired Ethernet interface. Firmware - The latest firmware version applied to each device. (Set in Preferences > Update & Reboot) CPU Temp - Temperature on the device CPU (operating range: -40 C to +110 C). 5 GHz MAC - The unique identifier for the 5 GHz radio. Ethernet MAC - The unique identifier for the physical Ethernet interface. Last Reboot - The date and time at which each device last rebooted. Copyright 2014 Mimosa Page 41 Mimosa Client Help Content Mimosa Clients Dashboard Copyright 2014 Mimosa Page 42 Mimosa Client Help Content Mimosa Clients Dashboard Reading MIMO Status Tables The MIMO Status panel contains two tables: Chains and Streams. Chains represent the physical medium (RF Tx/Rx values), while Streams represent data. Chains and Streams are not necessarily correlated one to one because the Rate Adaptation algorithm may periodically increase or decrease the number of data streams sent over the physical medium when reacting to interference. The Chains table describes each chain's power, noise, SNR, frequency and polarization. The Streams table describes each stream's MCS index, PHY rates and Rx Error Vector Magnitude (EVM). Each table can be selected by clicking on the navigation circles at the bottom of the panel. Chains Table The Chains table contains 6 values: Tx Power, Rx Power, Rx Noise, SNR, Center Frequency and Polarization

(horizontal and vertical). Tx Power is the amount of power applied to each of the MIMO chains. Tx power is divided evenly per chain. Example: 15 dBm Tx power for the Channel results in 12 dBm on Tx power is divided evenly per chain. Example: 15 dBm Tx power for the Channel results in 12 dBm on each on chain. Since power is expressed in dBm, subtract 3 to divide the total power in half. each on chain. Since power is expressed in dBm, subtract 3 to divide the total power in half. Rx Power is the incoming signal level from the remote radio. Larger values are better (e.g. -50 dBm is better than -

60 dBm). Rx Noise is a combination of the thermal noise floor plus interference detected by the local radio. Smaller values are better (e.g. -90 dBm is better than -80 dBm). Noise sources can be either in close proximity to the local radio, or they can be remote transmitters pointed back at the local radio. Copyright 2014 Mimosa Page 43 Mimosa Client Help Content Mimosa Clients Dashboard The signal-to-noise ratio (SNR) is the difference between the Rx Power and Rx Noise, and is a measure of how well the local receiver can detect signals from the remote transmitter and clearly discern them from noise. Higher values are better (e.g. 30 dB is better than 10 dB). If two channels are selected, you may observe that SNR is much lower on one channel than the other. This could be because the Tx Power is set lower on the remote transmitter, or because of higher interference levels on the channel. To resolve this, increase Tx Power or change the channel that has lower SNR. Chain 1 has horizontal polarization, while Chain 2 has vertical polarization. Streams Table The Streams table contains the Tx MCS index, Tx PHY rate, Rx MCS index, Rx PHY rate, and the Rx EVM for each stream. The Tx MCS is an indicator of how well the remote radio can receive data from the local transmitter. The Rx MCS indicates how well the local radio is receiving data from the remote transmitter. The Modulation Coding Scheme (MCS) represents how much data can be sent at a time, so directly affects The Modulation Coding Scheme (MCS) represents how much data can be sent at a time, so directly affects potential throughput represented by the PHY rate. The higher the MCS index (ranging from 0-9), the more potential throughput represented by the PHY rate. The higher the MCS index (ranging from 0-9), the more data that can be sent per transmission. A disadvantages of higher MCS indices is that they require higher data that can be sent per transmission. A disadvantages of higher MCS indices is that they require higher SNR since they are more vulnerable to noise. SNR since they are more vulnerable to noise. The Error Vector Magnitude (EVM) indicates the difference between the actual and expected amplitude and phase of an incoming signal. Smaller values are better (e.g. -30 dB is better than -10 dB). Copyright 2014 Mimosa Page 44 Mimosa Client Help Content Mimosa Clients Dashboard Rate Adaptation dynamically adjusts both the MCS and the number of streams depending on RF conditions. Poor RF conditions (i.e. interference) causes PER to increase. PER and MCS are inversely correlated meaning that as PER increases, MCS decreases and vice versa. The radio usually uses 2 streams, but it may drop to one stream if RF conditions are poor. You may also see the number of streams change periodically because of tests that Rate Adaptation performs to optimize performance. This is expected and normal. Related:

Client FAQ: What SNR is required for each MCS?

Client FAQ: What is the sensitivity for each MCS index?

Client FAQ: What's a good EVM?

Copyright 2014 Mimosa Page 45 Mimosa Client Help Content Mimosa Clients Channel & Power Reading the Spectrum Analyzer The Spectrum Analyzer actively scans the spectrum in the background to report on interference sources that may impact link performance. Click on the half circle icon in the upper right to toggle the graph's background color between black and white. Channels in use have higher Power Spectral Density (PSD), or amplitude, on the vertical axis, and are shaded in different colors to represent how often the signals are likely to be on the same frequency at the same amplitude. The legend to the right of the graph explains the color code for the Cumulative Distribution Function (CDF). The color red suggests the highest probability (1 = 100%), while purple represents the lowest probability (0 = 0%). Cross hairs appear on the graph beneath the mouse pointer along with an information box containing the frequency

(channel), PSD, and CDF values. There are three types of markings, or bars, immediately beneath the graphs horizontal axis that indicate frequency ranges that are restricted, manually excluded, or in active use by this link. Note that traffic from the Active Channel is excluded from the display so that noise can be detected. Copyright 2014 Mimosa Page 46 Mimosa Client Help Content Mimosa Clients Channel & Power Managing Channel & Power Settings The Channel and Power Settings panel allows for either automatic or manual changes to frequency, channel width, and power. When SRS (TDMA) is selected as the Wireless Protocol on the Link page, only the Power Override control is available. l l l l l l l l Source - The values on this page are inherited from the AP through wireless beacons. Max Channel Width (MHz) - Select the maximum channel width (20, 40, or 80 MHz). Center Frequency (MHz) - The center frequency of the channel used on the link. The center frequency represents the absolute center of the selected channel width without any offset, and the center can be moved in 5 MHz increments. The Channel will be automatically set by the AP, and not editable. Tx Power (dBm) - Set the desired transmit power level. The allowed options are determined by a combination of country and chosen frequency. If Auto Everything is set to On, the Channel & Tx Power will be automatically set, and not editable. Power Override - Allows Tx power changes from the value set by the AP through beacons. AGC Mode - Use this feature to set the signal level below which the radio ignores incoming RF signals. The choices are Off, Auto, or Manual. AGC Minimum Rx Power (dBm) - In Manual mode, select an Rx power level below your expected signal, but above other interference (-90 to -10 dBm). Regulatory Domain - The country in which the device has been configured to run. Note: Tx power selections may be limited based on your regulatory domain. Copyright 2014 Mimosa Page 47 Mimosa Client Help Content Mimosa Clients Device Configuration Link The Device Configuration panel shows the wireless mode for the device and contains controls to select supported wireless protocols. Wireless Mode - The C5 is a client of an Access Point, and this value cannot be changed. The C5c operates as client or station device depending on the selected band. In U-NII-1 and U-NII-4 bands, the C5c is a PTP client device. In U-NII-2 and U-NII-3 bands, the C5c is a PTMP station device. Wireless Protocol - Select an option compatible with the Access Point. WiFi Interop (CSMA) - Select for compatibility with newer 3rd party Access Points. SRS (TDMA) - Mimosa proprietary TDMA protocol for fixed Clients. Auto - Follow the Wireless Protocol setting on the AP. l l l Gender - Traffic Split - When GPS-Sync is selected, clients are set to gender B by default, and are configured to allocate bandwidth symmetrically (50/50). TDMA Window - When GPS-Sync is selected, this value represents the length of the time slot in milliseconds. l l l l Copyright 2014 Mimosa Page 48 Mimosa Client Help Content Mimosa Clients Rate Limit Link The Rate Limit panel contains controls to limit upstream and downstream throughput. l l Upstream Peak Rate (Mbps) - Enter the maximum throughput allowed for upstream traffic. Enter 0 to remove limits. Downstream Peak Rate (Mbps) - Enter the maximum throughput allowed for downstream traffic. Enter 0 to remove limits. Copyright 2014 Mimosa Page 49 Mimosa Client Help Content Mimosa Clients Link Configuration Settings Link The Link Configuration panel includes controls to define the 5 GHz SSID and passphrase between radios:

l l l l l Link Friendly Name - A friendly name to describe the link between the Access Point (AP) and Client/Station. This name is used to differentiate amongst other links. Scan for SSID - Click this button to display a list of Access Point SSIDs. SSID - The wireless link name used by both radios. Both AP and Station must use the same SSID to associate with each other. Security Type - Select from the following security options:

Open - No authentication or encryption is used. This operational mode is not secure. Pre-Shared Key - There is no user authentication but the link is encrypted using a pre-shared key. Encryption Key - Enter the ASCII Passphrase to connect with the broadcasted SSID. Select "Show Key" to see passphrase in plain text. Enter any combination of printable characters. The passphrase should be between 8 to 63 characters in length. The Encryption Key must be the same on both the Access Point and Station for them to communicate with each other. Enterprise - Users are authenticated and encrypted using radius. Username - This field is shown if the Enterprise option is selected in the Security field. Enter the username for the authentication server. Password - This field is shown if the Enterprise option is selected in the Security field. Enter the password for the authentication server. Status - Indicates whether the AP and Station are "Connected" (associated) or "Not Connected" (disassociated). Please ensure that the SSID, Encryption Key, and firmware versions are the same. Additionally, ensure that the IP addresses are different, and on the same subnet. l l l l l l Copyright 2014 Mimosa Page 50 Mimosa Client Help Content Mimosa Clients Link Copyright 2014 Mimosa Page 51 Mimosa Client Help Content Mimosa Clients Local Coordinates Location Enter the latitude and longitude of the local radio in signed decimal degrees with four digits after the decimal point

(e.g. ##.####). These values are used to display the radio on a map within Mimosa cloud applications. Copyright 2014 Mimosa Page 52 Mimosa Client Help Content Mimosa Clients Remote Coordinates Location Enter the latitude and longitude of the remote radio in signed decimal degrees with four digits after the decimal point (e.g. ##.####). These values are used to display the radio on a map within Mimosa cloud applications. Copyright 2014 Mimosa Page 53 Mimosa Client Help Content Mimosa Clients Distance The calculated distance between radios based on the local and remote coordinates. Location Copyright 2014 Mimosa Page 54 Mimosa Client Help Content Mimosa Clients Site Survey Reading Site Survey Results The Survey Results status table summarizes the results of a site survey, including the SSIDs broadcast by other devices, their configuration and capabilities. Note that the Site Survey function is only available on radios configured as a Station (versus AP). The table provides the following data per device found:

SSID - The wireless link name advertised by each detected AP. Vendor - The name of the device manufacturer (if known). MAC Address - The device's unique identifier. Capability - Indicates which 802.11 (Wi-Fi technology standard) is support by the device. Options include A, G, N, AC. Frequency Channel - Lists the channel on which the device operates. Channel Width (MHz) - The size of the channel on which the device operates. Frequency Range - The specific frequency range (in MHz) within the channel that the device operates. GPS-Sync - Displays the TDMA settings for Mimosa radios. Signal Strength (dBm) - The received power level (in dBm) from each detected AP. l l l l l l l l l Note: The Site Survey will temporarily interrupt your link. Once started, this process cannot be stopped until complete. Use the Start Survey button to place the radio into the scan mode to search for 802.11-compatible access points. The Last Updated field indicates (down to the second) when the last Site Survey was requested. It is important to note that running a site survey will temporarily take down your link. Once activated, this process cannot be stopped until complete. Please plan accordingly. Copyright 2014 Mimosa Page 55 Mimosa Client Help Content Mimosa Clients General Setting a Device Name and Description The device name and description are local identifiers for administrative purposes, and are not used as part of the wireless link. Device Friendly Name - Name for the local device displayed on the Dashboard. Device Description - A more detailed device description (up to 150 characters) for administrative purposes. l l Copyright 2014 Mimosa Page 56 Mimosa Client Help Content Mimosa Clients General Reading the Date/Time & Setting the Install Date The Time panel shows the current date and time in Coordinated Universal Time (UTC). The Install Date input box can be used for administrative purposes, but it is optional and has no other effect. Current Date (UTC) - Current date as set by the NTP Server Current Time (UTC) - Current time as set by the NTP Server Install Date - Used to track the date that the device was installed NTP Server - Domain name or IP address of network time server l l l l Copyright 2014 Mimosa Page 57 Mimosa Client Help Content Mimosa Clients Setting a Password General Enter the new password in both the New Password and Verify New Password input boxes to validate that they were typed correctly. To finalize the change, enter the existing password and then save. The default password should be changed during device configuration to protect your network. New Password - Enter the new password. Verify New Password - Re-enter the new password (to confirm). Current Password - Enter the existing password (as a security measure). l l l l l The password validation rules are as follows:

It must be between 6 to 64 characters. It can use capital (A-Z) or lower case (a-z) characters, excluding space. Valid special characters for the password include ! " # $ % & ' ( ) * + , - . / : ; < = > ? [ ] ^ _ ` { | } ~

The password cannot be blank. The password may not have a leading or trailing space. There is no complexity required for the password. l l l l Copyright 2014 Mimosa Page 58 Mimosa Client Help Content Mimosa Clients General General Miscellaneous Settings The Miscellaneous panel contains general functionality not described elsewhere. Unlock Code - Displays the code used to unlock the device. l Copyright 2014 Mimosa Page 59 Mimosa Client Help Content Mimosa Clients Management Setting the Management IP Address The Management IP panel contains controls for setting the device's network address, subnet, gateway and DNS servers. l l l l l l IP Mode - Select the preferred mode of network addressing: Static or DHCP+Static Failover. If Static is chosen, the device will always use the IP address that has been assigned. If DHCP+Static Failover is chosen, and a DHCP server is available, then the addresses are automatically assigned by the DHCP server. If a DHCP server is unavailable, the device will use the static IP address listed below. IP Address - The network address used to manage the device. Netmask - The subnet mask that defines the network subnet. Gateway - The gateway address for the subnet. Primary DNS - The first DNS server IP Address. Default is 8.8.8.8. Secondary DNS - The backup DNS server IP Address. Default is 8 Note that the wired Ethernet interface is configured by default to use DHCP with a static failover to the IP Note that the wired Ethernet interface is configured by default to use DHCP with a static failover to the IP address in the table below. address in the table below. Copyright 2014 Mimosa Page 60 Mimosa Client Help Content Mimosa Clients Enabling Watchdog Management The Watchdog panel contains controls to monitor a remote host and reboot the local device under configurable failure conditions. l l l l l IP Ping Watchdog - Enables the IP Ping Watchdog feature, which resets the device if it cannot ping a certain IP after a number of retry attempts. Ping IP Address - Enter the IP address of the device to ping. Interval (Seconds) - Set the number of seconds (1-3600) between ping attempts. Delay After Startup (Seconds) - Set the delay (1-3600) between device start up and the first ping attempt. Failure Count Triggering Reboot - Set the number of failed ping attempts (1-100) before rebooting the device. WARNING: rebooting will take the device offline. Copyright 2014 Mimosa Page 61 Mimosa Client Help Content Mimosa Clients Management Services Management The Services panel holds controls to secure management traffic by specifying how it should be served over the network. l l l l Enable HTTPS - Use SSL to access the web interface of this device. Web Server Port - Indicate which TCP port will be used for the web server. This web server is for the web interface. Secure Web Server Port - Indicate which TCP port will be used for the secure web server. Session Timeout - Set the number of minutes (0-60) of inactivity that will be allowed on the interface before automatic log-out for sessions. If set to "0", the session will have no timeout. Following an automatic session timeout, logging back into the device will take you to the Dashboard Following an automatic session timeout, logging back into the device will take you to the Dashboard screen. screen. Copyright 2014 Mimosa Page 62 Mimosa Client Help Content Mimosa Clients VLAN Management Management The VLAN Management panel allows the administrator to enable a VLAN (Virtual Local Area Network) for management traffic. When enabled, all Web Management traffic must originate from a device on that VLAN. Enable - Use the slider control to turn VLAN Management on or off. ID - The VLAN ID tag. l l Copyright 2014 Mimosa Page 63 Mimosa Client Help Content Mimosa Clients Management Management Miscellaneous Settings The Miscellaneous panel contains controls to enable Mimosa Cloud Management and to select the Ethernet Port data rate, either automatically or manually. l l l l Mimosa Cloud Management - Enables the device to use Mimosa Cloud Management tools. Data will be collected and stored the Mimosa Cloud. Ethernet Port - Set the Ethernet port transfer rate or allow it to be automatically determined. Manually selectable options are 10, 100, or 1000BaseT at either full or half duplex. Note that Auto or 1000BaseT/Full is recommended so that the Ethernet port does not create a bottleneck. Autoneg Mode - Select an autonegotiation mode for Ethernet: Auto, Manual Slave, Manual Master, Preferred Slave, Preferred Master. Auto mode is recommended. Manual options may improve interoperability with some routers and switches. Flow Control - Enables PAUSE frames (part of 802.3x standard) to manage the transmission rate between upstream senders and the Ethernet Interface. Copyright 2014 Mimosa Page 64 Mimosa Client Help Content Mimosa Clients Notifications Enabling SNMP Notifications Enable the SNMP service to allow SNMP requests and enable push notifications to a remote server. SNMP - Enable or disable SNMP service on the local device. SNMP Community String - Enter a string for use during client authentication. Contact - Specify an (optional) administrative contact for the SNMP system. Location - Specify the (optional) physical location for the SNMP system. Trap Server - Define the server to receive the notifications. l l l l l Related:

SNMP Usage Examples: Get / Walk / Table - Sample commands for retrieving values SNMP Object Names - Query values using SNMP Object Names defined within the Mimosa MIB file SNMP Traps - Configure outgoing notifications for specific events SNMP MIB Download - Available values in standard Management Information Base (MIB) format SNMP OID Reference - Summarized list of available values and where to find them on the GUI Copyright 2014 Mimosa Page 65 Mimosa Client Help Content Mimosa Clients Configuring SNMP Traps Notifications l l l Define which traps (or notifications) are sent to the remote SNMP server. Critical Fault - Notification created if the device is forced to reboot. Boot/Reboot - Notification created if the system boots or reboots. Wireless Up/Down - Notification created if the device connects to (Wireless Up) or disconnects from (Wireless Down) another device. Ethernet Up/Down - Notification created if the Ethernet Port is connected (Ethernet Up) or disconnected

SNMP Usage Examples: Get / Walk / Table - Sample commands for retrieving values SNMP Object Names - Query values using SNMP Object Names defined within the Mimosa MIB file SNMP Notifications - Enabling SNMP on Mimosa products SNMP MIB Download - Available values in standard Management Information Base (MIB) format Copyright 2014 Mimosa Page 66 Mimosa Client Help Content Mimosa Clients Notifications SNMP OID Reference - Summarized list of available values and where to find them on the GUI Copyright 2014 Mimosa Page 67 Mimosa Client Help Content Mimosa Clients Notifications Enabling System Log Notifications Enable Syslog service on the local device to send traps to a remote Syslog server. Syslog Remote Log - Enable or disable Syslog service on the local device. Transport Protocol - Choose the desired protocol for the Syslog connection. Note that most devices send UDP messages by default. UDP is an unreliable transmission protocol, thus messages may get lost. Choose TCP for higher reliability if any message loss is unacceptable. Remote Log IP Address - List the IP Address of the remote Syslog server to which Notifications will be sent. Remote Log Port - List the Port on the remote Syslog server to which Notifications will be sent. l l l l Copyright 2014 Mimosa Page 68 Mimosa Client Help Content Mimosa Clients Notifications Configuring System Log Traps Define which traps (or notifications) are sent to the remote server for the System Log. Critical Fault - Notification created if the device is forced to reboot. Boot/Reboot - Notification created if the system boots or reboots. Wireless Up/Down - Notification created if the device connects to (Wireless Up) or disconnects from (Wireless Down) another device. Ethernet Up/Down - Notification created if the Ethernet Port is connected (Ethernet Up) or disconnected

(Ethernet Down). Ethernet Speed Change - Notification created when the Ethernet port changes from one speed (10, 100, or 1000 BaseT) to another. Temperature Low/High - Notification created if the temperature falls outside of the safe range for the product. Multiple Login Attempts - Notification created if multiple login attempts are made from the same IP Address. l l l l l l l Copyright 2014 Mimosa Page 69 Mimosa Client Help Content Mimosa Clients Firmware & Reset Performing a Firmware Update The Firmware Update panel displays the current firmware version and date, and allows the user to upload a new firmware image. The latest firmware image may be downloaded http://mimosa.co/firmware. Alternately, firmware can be pushed to the device automatically through the Manage application at manage.mimosa.co. l l l Installed Version - The currently installed firmware version. Build Date - The date that the installed firmware was created. Image File - Update to the latest firmware. Click the Choose File button to select a file for upload the file. When performing a Firmware upgrade, it is advisable to reboot and then upgrade the remote side of the When performing a Firmware upgrade, it is advisable to reboot and then upgrade the remote side of the link before the local side. If there is a problem during the upgrade you will still have access to one of the link before the local side. If there is a problem during the upgrade you will still have access to one of the radios within the link and can manage the link details. radios within the link and can manage the link details. The firmware update process occurs in three phases:

1. 2. 3. Upload - Selecting a firmware image and uploading to the radio Verification and upgrade - Ensuring that the firmware image is complete and without errors, and then writing to flash memory Reboot - Restarting with the new firmware image (~90 seconds) The Mimosa Manage application offers a parallel upgrade feature which sends the firmware image to all connected C5/C5c clients in batches of 5. Copyright 2014 Mimosa Page 70 Mimosa Client Help Content Mimosa Clients Firmware & Reset Reset & Reboot the Device Reboot the device or reset it to its original factory settings. Factory Reset Device - Clears all configuration settings and locks the device. WARNING: This will delete ALL saved configuration settings and return the device to the locked factory state. You will be required to re-enter your unlock key upon device reset. The current version of firmware will remain, however. Reset Device Configuration - Clears all configuration settings. The device will remain unlocked. Reset Device Unlock - Locks the device and resets the country code. WARNING: You will be required to re-enter your unlock key upon reset. Reboot Device - Restarts the device. l l l l Copyright 2014 Mimosa Page 71 Mimosa Client Help Content Mimosa Clients Backup & Restore Backup or Restore Configuration Settings The Backup and Restore Configuration panel contains controls for managing configuration settings files. Backup Current Configuration - Perform a configuration backup by downloading the mimosa.conf file. Restore Configuration - Click the Choose File button to upload a previously saved mimosa.conf file. l l Copyright 2014 Mimosa Page 72 Mimosa Client Help Content Mimosa Clients Diagnostic Tests Three types of tests are available within the Diagnostics section: Ping and Traceroute. Ping Test A low level ICMP test which indicates whether the target host is reachable from the local device. Tests l l l l Destination Host - The destination IP Address of the device to ping. Packet Count - The number of packets to transmit during a ping. Packet Size (bytes) - The size of each packet to transmit during a ping. Run Test - Click on the Run Test button to ping the destination IP address. Results are shown in the corresponding table. Traceroute Test A network utility used to display the path and transit delay between the local device and a given destination across an IP network. l l l Destination Host - The destination IP address for traceroute to send packets. Max Number of Hops - Choose the maximum number of intermediate devices (e.g. routers) through which packets must pass between source and destination. Run Test - Click on the Run Test button to begin the traceroute test. Results are shown in the corresponding table. Copyright 2014 Mimosa Page 73 Mimosa Client Help Content Mimosa Clients Running a Ping Test Tests A low level ICMP test which indicates whether the target host is reachable from the local device. l l l l Destination Host - The destination IP Address of the device to ping. Packet Count - The number of packets to transmit during a ping. Packet Size (bytes) - The size of each packet to transmit during a ping. Run Test - Click on the Run Test button to ping the destination IP address. Results are shown in corresponding table. Copyright 2014 Mimosa Page 74 Mimosa Client Help Content Mimosa Clients Running a Traceroute Test Tests A network utility used to display the path and transit delay between the local device and a given destination across an IP network. l l Destination Host - The destination IP address for traceroute to send packets. Max Number of Hops - Choose the maximum number of intermediate devices (e.g. routers) through which packets must pass between source and destination. Copyright 2014 Mimosa Page 75 Mimosa Client Help Content Mimosa Clients Diagnostic Logs Logs View Events and download diagnostic information to share with Mimosa Support. l l Event Log - This is a persistent (non-volatile) log of all significant events that occur. Support Info - Download a single file containing all information required by Mimosa Support to help with troubleshooting. Copyright 2014 Mimosa Page 76 Mimosa Client Help Content Mimosa Clients SNMP OID Reference SNMP Interface Many SNMP implementations simply provide a MIB which requires a fair amount of study to locate specific values. We took it a step further and summarized them below for easy reference. Each table shows what values are available and where to find them within the GUI for comparison. General Information OID 1.3.6.1.4.1.43356.2.1.2.1.1.0 mimosaDeviceName.0 Object Output Example STRING: My C5 AP 1.3.6.1.4.1.43356.2.1.2.1.2.0 mimosaSerialNumber.0 STRING:

1000123456 1.3.6.1.4.1.43356.2.1.2.1.3.0 mimosaFirmwareVersion.0 STRING: 1.2.0 UI Location Preferences > General >

Naming > Device Friendly Name Overview > Dashboard >

Device Details > Serial Number (Local) Overview > Dashboard >

Device Details > Firmware

(Local) 1.3.6.1.4.1.43356.2.1.2.1.4.0 mimosaFirmwareBuildDate.0 1.3.6.1.4.1.43356.2.1.2.1.5.0 mimosaLastRebootTime.0 STRING: 2015-04-

17 18:29:26 (UTC -

0700) Preferences > Firmware &

Reset > Firmware Update

> Build Date STRING: 2015-04-

18 19:54:42 (UTC

+0000) Overview > Dashboard >

Device Details > Last Reboot (Local) 1.3.6.1.4.1.43356.2.1.2.1.6.0 mimosaUnlockCode.0 STRING:

8MEDWLWMN 1.3.6.1.4.1.43356.2.1.2.1.8.0 mimosaInternalTemp.0 INTEGER: 38.2 C 1.3.6.1.4.1.43356.2.1.2.1.9.0 mimosaRegulatoryDomain.0 STRING: United States Preferences > General >

Miscellaneous > Unlock Code Overview > Dashboard >

Device Details > Internal Temp or CPU Temp (Local) Wireless > Channel &

Power > Exclusions &

Restrictions > Regulatory Domain TDMA Settings OID Copyright 2014 Mimosa Object Output Example UI Location Page 77 Mimosa Client Help Content Mimosa Clients SNMP Interface 1.3.6.1.4.1.43356.2.1.2.4.1.0 mimosaWirelessMode.0 INTEGER: ap(1) 1.3.6.1.4.1.43356.2.1.2.4.2.0 mimosaWirelessProtocol.0 INTEGER: tdma(1) 1.3.6.1.4.1.43356.2.1.2.4.3.0 mimosaTDMAMode.0 INTEGER: A(1) 1.3.6.1.4.1.43356.2.1.2.4.4.0 mimosaTDMAWindow.0 INTEGER: 4 ms 1.3.6.1.4.1.43356.2.1.2.4.5.0 mimosaTrafficSplit.0 INTEGER:

symmetric(1) Wireless > Link > TDMA Configuration > Wireless Mode Wireless > Link > TDMA Configuration > Wireless Protocol Wireless > Link > TDMA Configuration > Gender -

Traffic Split Wireless > Link > TDMA Configuration > TDMA Window Wireless > Link > TDMA Configuration > Gender -

Traffic Split Channel & Power Settings OID 1.3.6.1.4.1.43356.2.1.2.6.1.7 mimosaTargetSignalStrength Object Output Example UI Location INTEGER:

-11.7 dBm GUI -> Dashboard 1.3.6.1.4.1.43356.2.1.2.6.1.6 mimosaChannelRxPower.1 1.3.6.1.4.1.43356.2.1.2.6.1.5 mimosaChannelTxPower.1 1.3.6.1.4.1.43356.2.1.2.6.1.1 mimosaChannelCenterFreq.1 INTEGER: -15 dBm INTEGER: 4.0 dBm Wireless > Channel & Power >

Channel & Power Settings > 5 GHz > Channel Width (MHz) Wireless > Channel & Power >

Channel & Power Settings > 5 GHz > Tx Power (dBm) INTEGER: 5500 MHz Wireless > Channel & Power >

Channel & Power Settings > 5 GHz > Center Frequency (MHz) Location Information OID 1.3.6.1.4.1.43356.2.1.2.2.1.0 mimosaLongitude.0 Object Output Example INTEGER: -121.943684 1.3.6.1.4.1.43356.2.1.2.2.2.0 mimosaLatitude.0 INTEGER: 37.28529 Copyright 2014 Mimosa UI Location Wireless > Location > Location Data > Latitude (Local) Wireless > Location > Location Data > Longitude (Local) Page 78 Mimosa Client Help Content Mimosa Clients WAN Information SNMP Interface OID 1.3.6.1.4.1.43356.2.1.2.3.2.0 mimosaWanMac.0 Object Output Example Hex-STRING: 20 B5 C6 00 00 01 1.3.6.1.4.1.43356.2.1.2.3.3.0 mimosaWanStatus.0 INTEGER: connected(1) UI Location Overview > Dashboard >

Device Details > 5 GHz MAC (Local) Overview > Dashboard >

Wireless Status 1.3.6.1.4.1.43356.2.1.2.3.4.0 mimosaWanUpTime.0 Timeticks: (18571300) 2 days, 3:35:13.00 Overview > Dashboard >

Link Uptime Performance Information OID 1.3.6.1.4.1.43356.2.1.2.7.1.0 mimosaPhyTxRate.0 Object 1.3.6.1.4.1.43356.2.1.2.7.2.0 mimosaPhyRxRate.0 Output Example INTEGER: 940.81 kbps UI Location Overview > Dashboard >

Performance > Throughput > Tx INTEGER: 764.06 kbps Overview > Dashboard >

Performance > Throughput > Rx 1.3.6.1.4.1.43356.2.1.2.7.3.0 mimosaPerTxRate.0 INTEGER: .27 %

1.3.6.1.4.1.43356.2.1.2.7.4.0 mimosaPerRxRate.0 INTEGER: .73 %

Overview > Dashboard >

Performance > PER > Tx Overview > Dashboard >

Performance > PER > Rx Management Information OID Object 1.3.6.1.4.1.43356.2.1.2.5.8.0 mimosaLocalIpAddr.0 1.3.6.1.4.1.43356.2.1.2.5.9.0 mimosaLocalNetMask.0 1.3.6.1.4.1.43356.2.1.2.5.10.0 mimosaLocalGateway.0 Output Example IpAddress:

192.168.1.20 IpAddress:

255.255.255.0 IpAddress:

192.168.1.1 UI Location Preferences > Management

> Management IP > IP Address Preferences > Management

> Management IP >

Netmask Preferences > Management

> Management IP >

Gateway Copyright 2014 Mimosa Page 79 Mimosa Client Help Content Mimosa Clients 1.3.6.1.4.1.43356.2.1.2.5.11.0 mimosaFlowControl.0 INTEGER: disabled(2) Services Information OID 1.3.6.1.4.1.43356.2.1.2.8.1.0 mimosaHttpsEnabled.0 Object Output Example INTEGER:

disabled(2) 1.3.6.1.4.1.43356.2.1.2.8.2.0 mimosaMgmtVlanEnabled.0 1.3.6.1.4.1.43356.2.1.2.8.3.0 mimosaMgmtCloudEnabled.0 1.3.6.1.4.1.43356.2.1.2.8.4.0 mimosaRestMgmtEnabled.0 1.3.6.1.4.1.43356.2.1.2.8.5.0 mimosaPingWatchdogEnabled.0 1.3.6.1.4.1.43356.2.1.2.8.6.0 mimosaSyslogEnabled.0 1.3.6.1.4.1.43356.2.1.2.8.7.0 mimosaNtpMode.0 1.3.6.1.4.1.43356.2.1.2.8.8.0 mimosaNtpServer.0 INTEGER:

disabled(2) INTEGER:

enabled(1) INTEGER:

disabled(2) INTEGER:

standard(2) STRING:

time.nist.gov SNMP Interface Preferences > Management

> Miscellaneous > Flow Control UI Location Preferences >

Management > Services

> Enable HTTPS Preferences >

Management >

Management VLAN >

Enable Preferences >

Management >

Miscellaneous > Mimosa Cloud Management Preferences >

Management > REST Services > REST Management Preferences >

Management >

Watchdog > IP Ping Watchdog Preferences >

Notifications > System Log Notifications >

Syslog Remote Log Preferences > General >

Time > NTP Mode Preferences > General >

Time > NTP Server Related:

SNMP Usage Examples: Get / Walk / Table - Sample commands for retrieving values SNMP Object Names - Query values using SNMP Object Names defined within the Mimosa MIB file Copyright 2014 Mimosa Page 80 Mimosa Client Help Content Mimosa Clients SNMP Interface SNMP Notifications - Enabling SNMP on Mimosa products SNMP Traps - Configure outgoing notifications for specific events SNMP MIB Download - Available values in standard Management Information Base (MIB) format Copyright 2014 Mimosa Page 81 Mimosa Client Help Content Mimosa Clients Troubleshooting Guide Troubleshooting Overview Power / Ethernet RF Tuning C5 LED Status Indicators Port flapping between 100/1000BaseT l l Association (Link) Radios not associated l Intermittent Ping/GUI Access Intermittent Access l l l High PER Low SNR Low Rx Power Throughput l l Low TCP Throughput Reset Procedure C5l Copyright 2014 Mimosa Page 82 Mimosa Client Help Content Mimosa Clients LED Status Indicators Troubleshooting Guide Product Applicability: C5, C5c Two LED indicators are located on the RJ-45 jack to communicate operational status: Ethernet (Yellow) and Power/Wireless (Green). The tables below describe the meaning of each LED's state: Off, On (solid), On (blinking), and Color. Power / Rx Signal Status LED Table The Power / Rx Signal Status LED indicates the presence of power, and communicates Rx signal strength. State Off Solid Green Blinking Green LED Description No Power to Device / Error1 Note that if the yellow Ethernet Status LED is on, this does not apply. Power On Associated; Blink rate proportional to signal strength2 1 Please check wiring, cycle power, and then contact Mimosa Support if necessary. 2 Ranges from 1 Hz (one blink per second at -90 dBm or less) to 10 Hz (one blink per 100 ms at -50 dBm or greater). Copyright 2014 Mimosa Page 83 Mimosa Client Help Content Mimosa Clients Troubleshooting Guide Ethernet Status LED Table The Ethernet Status LED indicates activity for the wired network connection. The device is designed to perform best with a 1000BASE-T connection. While other port speeds are possible, they are not recommended because they create a data bottleneck that reduces end-to-end throughput. State Off LED Description No Ethernet Connection / No Activity Blinking Yellow Ethernet Activity Copyright 2014 Mimosa Page 84 Mimosa Client Help Content Mimosa Clients Ethernet Troubleshooting Troubleshooting Guide Most Ethernet problems we see are related to cabling. The 1000BaseT standard is far more sensitive to coupled noise than 100BaseT, which is why we highlight in our documentation that shielded CAT6 is required for reliable operation. The cable shield should make contact with the metal Ethernet connector, and the metal Ethernet connector should make contact with the metal PoE receptacle (if applicable). CAT6 cable is not included with the Mimosa radio since Mimosa does not know the required length for each installation, and many installers have specific cable brand and type preferences. No Ethernet If you are unable to establish an Ethernet connection between the radio and another device, please review the LED External Status Indicators page. Port Flapping (alternating between Link Down and Link Up) Repeated link down and link up messages in the Event Log (Diagnostics > Logs > Events) indicate a power or cabling problem. Example Event Log Messages MIMO_EVENT ethernet link down MIMO_EVENT ethernet link up (1000/Full) MIMO_EVENT ethernet link down MIMO_EVENT ethernet link up (1000/Full) Troubleshooting Steps:

1. 2. 3. Ensure that the AC cable is secure at the PoE and AC outlet. If AC power fluctuations are expected, install a UPS with power conditioning to ensure a clean source of power to the PoE. Ensure that high quality shielded CAT6 cable is installed between the Mimosa PoE and Mimosa radio, and that the total cable length is 100 meters (328 feet) or less. Test continuity of the cable with an Ethernet cable tester. If possible, replace the PoE Injector in order to determine if the port flapping issue is with the Radio or the PoE Injector. Copyright 2014 Mimosa Page 85 Mimosa Client Help Content Mimosa Clients Troubleshooting Guide Port Flapping (alternating between 100BaseT and 1000BaseT) It is possible for FM interference on a radio tower to couple into the cable on unshielded cable. If the cable shield is not connected properly on both sides, the shield can act like an antenna and introduce noise into the circuit. Router firmware incompatibilities can also affect Ethernet negotiation at 1000BaseT. Example Event Log Messages MIMO_EVENT ethernet link down MIMO_EVENT ethernet link up (1000/Full) MIMO_EVENT ethernet link down MIMO_EVENT ethernet link up (100/Full) Troubleshooting Steps:

1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. Ensure that high quality shielded CAT6 cable is installed between the Mimosa PoE and Mimosa radio, and that the total cable length is 100 meters (328 feet) or less. Ensure that no additional Ethernet surge protection devices are installed between the PoE and Mimosa radio. Protection is already included in the Mimosa Radio and PoE. Additional hardware may increase capacitance and cause instability. Ensure that the electrical ground between radio and tower, and the ground from tower to earth have <5 ohms resistance in total. Test continuity of the CAT6 cable shield from one end of the cable to the other with a digital multimeter. Ensure that the cable shield makes contact with both the radio's Ethernet input and PoE output connector shells. Ensure that the IP67 Ethernet gland is installed to prevent moisture from entering the cable. Test cable wiring integrity with an Ethernet cable tester, and/or use a second cable to rule out an internal cable issue. Ensure that the bend radius of the cable does not exceed the manufacturer's specifications. Sharps bends or kinks can damage the cable or change the isolation between wire pairs within the cable which can degrade performance. Repeat the test indoors from router to PoE to the Mimosa radio exhibiting the problem. Test for ground loops indoors by installing an EMI filter and/or non-grounded AC adapter between the PoE power connector and AC receptacle. Repeat the test indoors from router to PoE to a different Mimosa radio to rule out an Ethernet hardware failure if step above fails. Connect a laptop with a 1000BaseT Ethernet port to the PoE to determine if the connection rate is dependent upon the connected router. Alternately, connect another switch between the router and PoE Copyright 2014 Mimosa Page 86 Mimosa Client Help Content Mimosa Clients Troubleshooting Guide 13. 14. Try changing to the same static values on both router and Mimosa radio (e.g. force 100BaseT or 1000BaseT on both sides). The Ethernet port speed setting is located on the Management Miscellaneous Settings page. If possible, try replacing the PoE Injector in order to determine if the port negotiation issue is with the Radio or the PoE Injector. Copyright 2014 Mimosa Page 87 Mimosa Client Help Content Mimosa Clients Troubleshooting Guide Troubleshooting Radio Association Radios may not associate for a number of reasons. Most commonly, because they are configured incorrectly or because of insufficient SNR. NoteNote: Mimosa radios must be unlocked before operation. For help with the unlock process, click here.

: Mimosa radios must be unlocked before operation. For help with the unlock process, click here. Check the Radio Configuration on Both Sides of the Link 1. 2. 3. 4. Log into the radio GUI and click Wireless > Link. Ensure that the SSID and Encryption Key are the same on both sides of the radio link. Ensure that the same wireless protocol is selected: WiFi Interop or SRS (formerly, GPS-Sync). Ensure that the same firmware is installed on both sides of the radio link. If indoors, point the radios away from each other and turn down the power. 1. While testing inside a room, point the radios toward the ceiling and set Tx power to the lowest possible setting. This will prevent the receivers from saturating. Check for interference on the Spectrum Analyzer 1. 2. 3. Log into the radio GUI and click Wireless > Channel & Power. Look for interference that overlaps the selected center frequencies. If interference is found, there are two options:

a) click on the Auto Channel dropdown to enable automatic channel selection and/or channel width adjustment; or b) change the channel manually to avoid the interference. Check for interference on PER Graph 1. 2. 3. 4. Log in the C5 GUI and click on Overview > Dashboard. On the Performance Graph, click on the navigation circles at the bottom to display "PHY PER". Look for persistent PER above 5%. If PER is greater than 5% for either side of the link, there are two options that you can take at the AP:

a) click on the Auto Channel dropdown to enable automatic channel selection and/or channel width adjustment; or b) change the channel manually to avoid the noise. Copyright 2014 Mimosa Page 88 Mimosa Client Help Content Mimosa Clients Troubleshooting Guide Troubleshooting Client DHCP Client radios may not receive a DHCP IP address for a number of reasons listed below. Check DHCP Server Reachability 2. 1. If no clients have DHCP assigned addresses, log into either the A5 or C5 and ping the DHCP server

(Diagnostics > Tests > Ping). If the DHCP server does not respond, proceed to the next step Check Rogue DHCP Server Protection Settings Log into the A5 radio GUI and click Preferences > Management. If Rogue DHCP Server Protection is enabled, ensure that your DHCP server IP address is listed. If not, click the plus "+" button to enter it's IP address. If Rogue DHCP Server Protection is not enabled, proceed to the next step. 1. 2. Turn on VLAN Passthrough 1. 2. Log into the A5 radio GUI and click Preferences > Management. If Management VLAN is enabled, ensure that VLAN Passthrough is also enabled. Check the C5 IP Mode settings 1. Log into the C5 GUI and ensure that the IP mode is set to "DHCP + Static Failover" (Preferences >

Management). Ensure there is no firmware mismatch between A5 and C5 1. 2. Log into the A5 and C5 individually. Configure your computer to an IP address within the range of the radio's static fallback IP address to access it locally. Ensure the reported firmware version is the same (Preferences > Firmware & Reset) on both A5 and C5. Copyright 2014 Mimosa Page 89 Mimosa Client Help Content Mimosa Clients Troubleshooting Guide Low Signal-to-Noise Ratio (SNR) The signal-to-noise ratio (SNR) is the single most important indicator of link health. It represents the magnitude difference between the Rx power and Rx Noise, which is positively correlated with the modulation coding scheme

(MCS) index. Up to a point, the higher the SNR, the higher the MCS and resulting throughput. Troubleshooting Steps 1. 2. 3. 4. 5. 6. Ensure that antennas are optimally aligned to achieve the highest Rx power value across the RF link. Ensure line of site between radios is clear of obstructions that may block the Fresnel zone. Obstructions may cause reflections/refractions that appear as noise. Choose the clearest RF channel(s) available. Interference (noise) on the same frequency can increase PER because the receiving radio does not have sufficient SNR. Select narrower channel widths to increase spectral density. Evaluate and adjust the Tx power. Tx power that is too low can result in low SNR, while Tx power that is too high can result in distortion (saturation at the transmitter or receiver). Mimosa recommends setting the Tx power to the level modeled in the Design application, and then making incremental changes up or down to determine the optimal level (lowest PER, highest MCS). Consider installing a higher gain antenna (A5c). Related:

Client Troubleshooting: High PER - Troubleshooting steps for high packet error rate Copyright 2014 Mimosa Page 90 Mimosa Client Help Content Mimosa Clients Troubleshooting Guide High Packet Error Rate (PER) The Packet Error Rate (PER) is the number of packets with errors divided by the total number of packets sent within a 5-second period. Lower values result in higher modulation, while higher values indicate the presence of interference and result in lower modulation. Tx PER is an indication that the local radio did not receive an ACK from the remote radio, so is forced to retransmit the same information again. Rx PER is a value sent from the remote radio to the local radio in management frames. Mimosa radios reduce the Modulation Coding Scheme (MCS) in response to PER in a process called Rate Adaptation. PER and MCS are inversely correlated; as PER increases, MCS decreases and vice versa. The effects of this can be seen on the Dashboard in the form of PHY rate changes. Because data must be retransmitted, time-sensitive applications such as VoIP data services may be affected by spikes in PER or sustained high PER. Troubleshooting Steps 1. 2. 3. 4. Ensure the antennas are optimally aligned to achieve the highest RX power value across the RF link. A low signal-to-noise ratio (SNR) can lead to higher PER. Ensure line of site between radios is clear of obstructions that may block the Fresnel zone. Obstructions may cause reflections/refractions that appear as noise. Choose the clearest RF channel available. Interference (noise) on the same frequency can increase PER because the receiving radio does not have sufficient SNR. Evaluate and adjust the Tx power. Tx power that is too low can result in low SNR, while Tx power that is too high can result in distortion (saturation at the transmitter or receiver). Mimosa recommends setting the Tx power to the level modeled in the Design application, and then making incremental changes up or down to determine the optimal level (lowest PER, highest MCS). Related:

Client Troubleshooting: Low SNR - Troubleshooting steps for low signal-to-noise ratio Client FAQ: SNR Required for each MCS - Table showing PHY rate per stream based on SNR Copyright 2014 Mimosa Page 91 Mimosa Client Help Content Mimosa Clients Low Tx/Rx Power Troubleshooting Guide The Tx/Rx power per chain is shown on the Client List page on the A5, or on the Dashboard of the C5. Although the A5 transmits on 4 chains to optimize the signal, the C5 will only transmit and receive on a maximum of two chains. Follow these troubleshooting steps if you observe low Tx/Rx power. Low power on two chains Consistent low power across both chains is likely due to long distance or EIRP limitations for selected channels. Use the Mimosa Design application to model the link for comparison with actual performance. This will help determine if the observed performance is expected, or if some other problem exists. Potential solutions include the following:

l l l l l l l Aim the antennas to achieve higher signal strength at each receiver Increase Tx Power Select a portion of spectrum that allows higher EIRP limits Select a narrower channel width Select a single channel instead of two channels Install a higher gain antenna (A5c/C5c) Relocate antennas to avoid permanent or temporary physical obstructions impairing the Fresnel zone Low power on one chain Clients connected to A5-14 may only use a single chain unless they receive strong signals from two of the four A5-

14 antenna panels which are pointed 90 degrees apart. Clients connected to A5c with a single sector antenna have a better chance of connecting on two chains since all of the energy is directed in one direction. Potential solutions include the following:

l l Design networks where clients are closer in proximity to the AP. Ensure that the client falls within the AP antenna pattern with adequate gain. Related:

Client Troubleshooting: Low SNR - Troubleshooting steps for low signal-to-noise ratio Client Troubleshooting: High PER - Troubleshooting steps for high packet error rate Copyright 2014 Mimosa Page 92 Mimosa Client Help Content Mimosa Clients Troubleshooting Guide Troubleshooting Low TCP Throughput RF Causes In some cases TCP throughput can be impacted by poor RF conditions (e.g. low SNR, high PER) that lead to higher or fluctuating latency. Ethernet Causes Low TCP throughput can also result from poor conditions on Ethernet either because of coupled noise and/or insufficient shielding. Please see the Ethernet Speed troubleshooting section for more details. Third-Party Equipment Causes Some third-party routers contain native bandwidth tests. Mimosa has found that some router models and firmware versions are insufficient for testing the full capacity of Mimosa links, leading to skewed results. There are several reasons including: 100 Mbps port limitations, fixed TCP windows, fixed TCP send and receive buffers, CPU capacity limitations, etc. Please refer to the Testing Throughput with iPerf article. Copyright 2014 Mimosa Page 93 Mimosa Client Help Content Mimosa Clients Troubleshooting Guide Testing Throughput with iPerf Mimosa has found that iPerf, a tool for active measurements of the maximum achievable bandwidth on IP networks, provides the most reliable measure of TCP performance. Instructions for downloading iperf, building the executable for your environment, and usage are available at this link: https://github.com/esnet/iperf Example Test Topologies Computer 1 - Mimosa 1 - Mimosa 2 - Computer 2 Computer 1 - Switch 1 - Mimosa 1 - Mimosa 2 - Switch 2 - Computer 2 l l Example Commands The iPerf (version 2) commands below send 10 TCP streams for 100 seconds with 64k TCP window size in one direction. Open separate terminal windows and reverse the commands to create bidirectional traffic. Command to make Computer 1 (192.168.1.22) the listener:

iperf -s -f m -i 60 Command to make Computer 2 (192.168.1.23) the sender:

iperf -c 192.168.1.22 -P 10 -t 100 -w 64k Note: Mimosa radios do not contain iPerf. For accurate measurement, the device under test should not Note: Mimosa radios do not contain iPerf. For accurate measurement, the device under test should not generate traffic because the test would impair the ability of the device by occupying the CPU and skewing generate traffic because the test would impair the ability of the device by occupying the CPU and skewing the test result. Please see the link below for more information about the Mimosa bandwidth test. the test result. Please see the link below for more information about the Mimosa bandwidth test. Copyright 2014 Mimosa Page 94

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FCC, Request for non-disclosure . Date: 19-Oct-10 RF_501, Issue? . Page 1 of 1 Campany Name: Mimosa Networks Address: 469 E! Camino Real, Suite 100 Santa Clara City: CA Country: USA Ta: Telefication B.V., Dept. FCC TCB Edisonstraat 12A 6902 PK ZEVENAAR The Netherlands Subject: Request for confidentiality FCC ID: 2ABZJ-100-00018 Reference number: HHH Dear FOC TCB, 1. Long-Term Confidentiality Pursuant to 47 CFR Section 0.459(a) & (b), we hereby requests non-disclosure and confidential treatment of the following materials submitted in support of FCC certification application:

[21 Bills) of Material 1 Block Diagrams

&] Operational Description ((] Schematic Diagrams (1 Tune-up Procedure Above materials contain secrets, proprietary and technical information, which would customarily be guarded from competitors under 47 CFR, section 0.457(d}{2). Disclosure or publication or any portion of this company confidential material to other parties could cause substantial competitive harm and provide unjustified benefits for competitors. 2. Short-Term Confidenttailty (STC) Pursuant to Public Notice DA 04-1705 of the Commission's policy, in order to comply with the marketing regulations in 47 CFR 2.803 and the importation rules in 47 GFR 2.1204, applicant heraby requests Short-Term Confidential treatment of the following materials (note 1):

& Internal Photos [2] Users Manual (1 Test Set-up Photos KX] Extemal Photos Justification:

Planned Release Date STC: (notes 2, 3, 4, 5). Ifo date is given, 45 days from grant date will be used. Date: 20170523. Name and signature of applicant: Aon Muj taba Ana ae Notes:

4) A document or type of document can only have ONE type of confidentiality!

2} Shor-Term confidentialily is in principle for 45 days from date of grant; it can be extended max 3 times (total time 180 days max.}!

3) FCG must be informed when markeling begins earlier. 4) Release lakes placa automatically thus extension must be requested in time. Teleficalion does not remind you of this!

5) Request for extension or for release must be received by Telelication at least 7 days before dale of actual marketing or before expiration of the STC pertod

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DFS Expedited Request

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1.23 MiB

February 06 2017 / November 08 2017

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1 2 3

Declaration of Authorization

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503.66 KiB

February 06 2017 / November 08 2017

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1 2 3

Declaration of Conformity FCC subpart 15B

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67.07 KiB

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Antenna Report Dipole revised

Cover Letter(s)

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4.64 MiB

May 22 2017

WHA YU INDUSTRIAL CO., LTD.(HEAD OFFICE) DONGGUAN AEON TECH CO.,LTD.(CHINA) SUZHOU AEON TECH CO.,LTD.(CHINA) AEON TECH (SHANGHAI) CO.,LTD(CHINA) DONGGUAN PARNER TECH CO.,LTD.(CHINA) SPECIFICATION FOR APPROVAL CUSTOMER: WY PART NAME: RF Antenna Assembly PART NO.:

W. Y. P/NO.: N100-510037-A(SRF2017036) MANUFACTURER SIGNATURE REVISION:

REV.: X1 CUSTOMER SIGNATURE APPROVED BY :

DATE :

WHA YU GROUP WHA YU INDUSTRIAL CO., LTD.(HEAD OFFICE) Address: No. 326,Sec. 2,Kung Tao 5 Road, Hsin Chu City, Taiwan, R.O.C. Tel:+886-3-5714225(REP.) Fax:+ 886-3-5713853 + 886-3-5723600 DONGGUAN AEON TECH CO.,LTD.(CHINA) Address:Hupan Industrial District,Tai Ling Shan Town,Dong Guan City,Guangdong,China Tel:+86-769-85655858 Fax:+86-769-85655258 SUZHOU AEON TECH CO.,LTD(CHINA) Address:Limin North Road, LiLi Town,LiLi Industrial Park,LinHu Economic Zone Wujiang City,Jiangsu Province,China Tel:+86-512-63627980 Fax:+86-512-63627981 AEON TECH (SHANGHAI) CO.,LTD(CHINA)

( ) Address:Flat 501,5F,Build 27, NO.68,Guiqing Road, Huhui District, Shanghai,China Tel:+86-21-64959151 Fax:+86-21-64959059 DONGGUAN PARNER TECH CO.,LTD.(CHINA) Address:Hupan Industrial District, Shida Road, Tai Ling Shan Town, Dong Guan City, Guangdong, China Fax:+86 769 81602681 Tel:+86-769-81662366 Fax:+86-769-81602681 Tel:+86 769 81662366 Contents Item Description 1. 2. 3. 3~5 Page 1 2 RF Antenna Assembly Specification 1. Electrical Properties :

1.1 Frequency Range 1.2 Impedance 1.3 VSWR 4.9GHz~5.825GHz 50 Nominal

(1.92:1Max) 1.4 Return Loss

(-10 dB Max) 1.5 Radiation Omni-directional 1.6 Gain(peak). 5GHz(2.5GHz) 1.7 PolarizationLinear ; Vertical 1.8 Admitted Power 1.9 Cable RG-178 1.10 Connector...SMA 1W 2. Physical Properties :

2.1 Operating Temp. -10 ~ +60 2.2 Storage Temp. -10 ~ +70 1 2 RF Antenna Assembly SPEC :5GHz 3 Far-field amplitude of E H-PLANE.nsi 4.900000 GHz 5.350000 GHz 5.150000 GHz 5.725000 GHz 15 0 345 5.250000 GHz 5.825000 GHz 330 315 300 285 270 255 240 225 30 45

-20

-10 0 60 75 90 dB 105 120 210 195 180 165 135 150 4 Far-field amplitude of V H-PLANE.nsi 4.900000 GHz 5.35000 GHz 5.150000 GHz 5.725000 GHz 15 0 345 5.250000 GHz 5.8250000 GHz 330 315 300 285 270 255 240 225 30 45

-20

-10 0 60 75 90 dB 105 120 135 210 195 150 165 180

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Antenna Report Dish

Cover Letter(s)

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674.84 KiB

		frequency	equipment class	purpose
1	2017-08-11	5745 ~ 5825	NII - Unlicensed National Information Infrastructure TX	Class II Permissive Change
2	2017-05-22	4950 ~ 4980	TNB - Licensed Non-Broadcast Station Transmitter	Original Equipment
3		5745 ~ 5825	NII - Unlicensed National Information Infrastructure TX

Application Forms

app s	Applicant Information
1 2 3	Effective	2017-08-11
1 2 3	Effective	2017-05-22
1 2 3	Applicant's complete, legal business name	Mimosa Networks, Inc.
1 2 3	FCC Registration Number (FRN)	0023163488
1 2 3	Physical Address	469 El Camino Real, Suite 100
1 2 3		Sanata Clara, CA
1 2 3		United States

app s	TCB Information
1 2 3	TCB Application Email Address	c******@telefication.com
1 2 3	TCB Scope	A4: UNII devices & low power transmitters using spread spectrum techniques
1 2 3	TCB Scope	B1: Commercial mobile radio services equipment in the following 47 CFR Parts 20, 22 (cellular), 24,25 (below 3 GHz) & 27

app s	FCC ID
1 2 3	Grantee Code	2ABZJ
1 2 3	Equipment Product Code	100-00018

app s	Person at the applicant's address to receive grant or for contact
1 2 3	Name	D**** S**
1 2 3	Telephone Number	650-4********
1 2 3	Fax Number	408-6********
1 2 3	E-mail	d******@mimosa.co

app s	Technical Contact
1 2 3	Firm Name	DEKRA Testing and Certification Co., Ltd.
1 2 3	Name	S** T******
1 2 3	Name	S****
1 2 3	Physical Address	No.372-2, Sec. 4, Zhongxing Road,Zhudong
1 2 3		No.372-2, Sec. 4, Zhongxing Road,Zhudong Township
1 2 3		Taiwan
1 2 3	Telephone Number	886-3********
1 2 3	Fax Number	886-3********
1 2 3	E-mail	s******@dekra.com

app s	Non Technical Contact
1 2 3	Firm Name	DEKRA Testing and Certification Co., Ltd.
1 2 3	Name	M****** W**
1 2 3	Physical Address	No.372-2, Sec. 4, Zhongxing Road,Zhudong
1 2 3		No.372-2, Sec. 4, Zhongxing Road,Zhudong Township
1 2 3		Taiwan
1 2 3	Telephone Number	886-3********
1 2 3	Fax Number	886-3********
1 2 3	E-mail	m******@dekra.com

app s	Confidentiality (long or short term)
1 2 3	Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?:	Yes
1 2 3	Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?:	Yes
1 2 3	If so, specify the short-term confidentiality release date (MM/DD/YYYY format)	09/25/2017
1 2 3		07/06/2017
	if no date is supplied, the release date will be set to 45 calendar days past the date of grant.

app s	Cognitive Radio & Software Defined Radio, Class, etc
1 2 3	Is this application for software defined/cognitive radio authorization?	No
1 2 3	Equipment Class	NII - Unlicensed National Information Infrastructure TX
1 2 3	Equipment Class	TNB - Licensed Non-Broadcast Station Transmitter
1 2 3	Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant)	Mimosa C5c
1 2 3	Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application?	Yes
1 2 3		No
1 2 3	Modular Equipment Type	Does not apply
1 2 3	Purpose / Application is for	Class II Permissive Change
1 2 3	Purpose / Application is for	Original Equipment
1 2 3	Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization?	Yes
1 2 3	Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization?	No
1 2 3	Grant Comments	Class II Permissive Change : Only firmware is changed to enable U-NII band 2A and Band 2C. This device has a 20/40/80 MHz bandwidth mode. The 80 MHz mode is limited to channel at 5210 MHz. 5290 MHz, 5530 MHz, 5610 MHz, 5690 MHz and 5775 MHz. Output power listed is conducted. Professional installation. The antenna(s) used for this transmitter must be used to provide a separation distance of at least 20 cm from all persons and must not be co-located or operating in conjunction with any other antenna or transmitter. End-users must be provided with antenna installation instructions and transmitter operating conditions for satisfying RF exposure compliance.
1 2 3		Output power listed is conducted. Professional installation. The antenna(s) used for this transmitter must be used to provide a separation distance of at least 20 cm from all persons and must not be co-located or operating in conjunction with any other antenna or transmitter. End-users must be provided with antenna installation instructions and transmitter operating conditions for satisfying RF exposure compliance.
1 2 3		Output power listed is conducted. Professional installation. The antenna(s) used for this transmitter must be used to provide a separation distance of at least 20 cm from all persons and must not be co-located or operating in conjunction with any other antenna or transmitter. End-users must be provided with antenna installation instructions and transmitter operating conditions for satisfying RF exposure compliance. This device has a 20/40/80 MHz bandwidth mode. The 80 MHz mode is limited to channel at 5210MHz and 5775 MHz
1 2 3	Is there an equipment authorization waiver associated with this application?	No
1 2 3	If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded?	No

app s	Test Firm Name and Contact Information
1 2 3	Firm Name	DEKRA TESTING AND CERTIFICATION Hsin Chu Lab.
1 2 3	Name	R**** W****
1 2 3	Telephone Number	886-3******** Extension:
1 2 3	Fax Number	886-3********
1 2 3	E-mail	r******@dekra.com

Equipment Specifications
	Line	Rule Parts	Grant Notes	Lower Frequency	Upper Frequency	Power Output	Tolerance	Emission Designator	Microprocessor Number
1	1	15E	38 MO	5180	5250	0.33
1	2	15E	38 MO	5260	5320	0.21
1	3	15E	38 MO	5500	5700	0.178
1	4	15E	38 MO	5745	5825	0.52
	Line	Rule Parts	Grant Notes	Lower Frequency	Upper Frequency	Power Output	Tolerance	Emission Designator	Microprocessor Number
2	1	90Y	MO	4950.00000000	4980.00000000	0.0720000	9.8000000000 ppm	18M8D7D
	Line	Rule Parts	Grant Notes	Lower Frequency	Upper Frequency	Power Output	Tolerance	Emission Designator	Microprocessor Number
3	1	15E	38 MO	5180	5250	0.33
3	2	15E	38 MO	5745	5825	0.52

some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details

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