For WISE-4000 Wireless Series, user can check WLAN RSSI Level to know the signal quality in Wireless Status part. And it also shows the MAC ID of the client device.
Module Information 1. 2. WISE-4000 User Manual In the information page, you can see the dashboard: module detail, network setting, and module information, including the firmware version. Click "Go to Configuration” to perform the configuration.
You can click different tab to switch the item you are going to configure Customized Name / UUID Means model name and UUID of the module. You also can rename it for recognition if required. Description You can add comments on this module for recognition.
Wireless (WISE-4000 Wireless module only) [AP Mode] When using the module in AP mode, users can configure the SSID and also decide how the WISE module works as an AP, including the security. The AP-Network is fixed and does not allow user to make their own changes.
When using the module in Infrastructure mode, users need to enter the SSID of the AP that WISE going to access, and configure the security from here. [Network] For WISE-4000/LAN wired module, you can select the Connection mode as DHCP or Static IP and configure the IP address, Subnet address, and Default gateway. 47 WISE-4000 User Manual System Configuration After configuring the AP the WISE module going to access, the network configuration also needs to be defined in the Infrastructure-Network.
[Network App] You configure the web server port, Host Idle (timeout), and decide whether to enable communication WDT here [Time & Date] You can see the current time here, decide which time zone for your local time, and also do the time calibration by read the time from host devices [SNTP] You can enable the SNTP function, so the module can act as a SNTP client to do time synchronization from assigned SNTP server.
[Control] Enable Locate It can help user search module with light sign. (Status LED will be constantly on for 30 sec when it enabled.) Restore to Default The system configuration of module will be clear and restored to factory default when it enabled. Reset Password You can reset the password here System Restart The system of this module will reboot when it enabled.
[General] After Communication WDT been enabled in "Network App" tab, you can enable the IO FSV triggered by communication WDT The Scan Interval here decides the I/O polling interval in the next part of the “I/O Status”. This value will not be saved into the module, so it is valid until the power is switched off. [Firmware] User can upgrade the firmware file here. Or Upload/Download the configuration file from WISE-4000 wireless module.
[Status] The I/O statuses are shown here, for the output status, you can also change the I/O status here.
[Configuration] Setting User can do detail I/O setting in the tab, include the Tag Name, range type, filter, and also the working mode. Calibration For the analog module, after login root account, user can click calibration button to restore the factory calibration value.
The status trend of I/O will be shown here. To avoid unauthorized access, you can manage which host PC or device can remotely control the WISE-4000 module by IP or MAC Address.
Enable one of the rows and enter the IP address or MAC address which allows to access the WISE-4000 device. For WISE-4000 wireless modules, users can only configure access control by the IP address, not the MAC address Advance Function - Data Log The WISE-4000 series supports data log functions, the I/O status can be logged in the module and also be queried from the module .
[Log Conditions]. By Period Check the box to enable periodically logging, and the log period can be decided in following box. Pleased been noted that the period is increased by 0.1 sec, it means if user configure "600" here, the status of the I/O will be logged each minute.
Local Viewer [Query Format] Users can decide which type of data has been queried.
Refer to B.2.4 for a detailed definition of each column. For example: Log Type 128 means periodical logging, I/O Type 1 means DI status [Enable Cloud Upload] Start Upload After configuring the cloud server as described below, users can start automatically upload functions here.
Advance Function - Diagnostician WISE-4000 wireless modules provide Diagnostician page for indicating the operating status of WISE module. The status of each function will be shown here for troubleshooting. For Data Logger, the value will indicate the event status ie: normal, memory full, or cloud upload fail. 4.2.7 Configuring Cloud Server (WISE-4000 wireless series only) 1. 2.
5. After logging in, click "Allow" to allow WISE Cloud Logger Apps to access your Dropbox account to store the data log file. 6. Dropbox will then provide a code, copy this code and return to the configuration web page of the WISE module. 7. Click "Next" to enter the code. IMAGE NOT SUPPLIED BY PM! 59 WISE-4000 User Manual System Configuration The browser will open a new window for Dropbox. Enter your Dropbox account information including E-mail and Password, then click “Sign in”. Chapter 4 4.
8. Paste the code provided by WISE Cloud Logger, then click "Submit". 9. If your WISE-4000 module is correctly connected to the Internet, you will be able to set the functions successfully. Click "Close" to return to Configuration. 10. You will then be able to see the “Link Status” shows “Ready”.
ADAM.NET Utility, which is designed with graphical operation interface, is aimed to offer users directly configure, control WISE-4000 module, and monitor the real-time status of remote WISE-4000 module via Ethernet or Wireless connection. To keep you informed with latest update, you also can check it from the following download link on Advantech website. http://support.advantech.com.tw/Support/DownloadSRDetail.aspx?SR_ID=12AKUDB Before installing ADAM.NET Utility, you need to install .NET Framework 2.
Save Favorite Group You can save the favorite group configuration group as XML file to your computer. Auto-Initial Group If you want to have the same favorite group configuration when you exit ADAM.NET utility and launch it again, you need to check this option. Exit Exit ADAM.NET Utility.
WISE-4000 User Manual System Configuration 63 Chapter 4 b. Tools Search Device Search all the WISE-4000 modules you connected in local Ethernet. Add Devices to Group It's used to add WISE-4000 modules to your favorite group. After activating search function, all online modules will show on Module Tree Screen area. Now you can enable this function to select the device you want to add in the Module Tree Screen. Group Configuration Group Configuration is on WISE-4000 series module.
c. Setup Favorite Group You can configure your favorite group including add one new device, modify or delete one current device, sort current devices and diagnose connection to one device. Refresh Serial and Ethernet ADAM.NET utility will refresh the serial and LAN network connection situation. Add COM Ports This option is used to add serial COM ports in ADAM.NET Utility. You won't need to use this option for WISE-4000 modules. Show TreeView Check this option to display the Module Tree Screen area.
There are 8 graphical icons for common used options of Menu on the toolbar. 4.3.1.3 Module Tree Screen The Module Tree Screen locates on the left part of ADAM.NET utility operation window. There are four categories in this area: Serial All serial I/O Modules (ADAM-4000 and ADAM-5000 RS-485 serial modules) connected to the host PC will be listed in this category.
4.3.2 Configure WISE-4000 1. 2. 3. Configure the computer’s IP address as the same domain as WISE-4000 module. For the new WISE-4000/LAN Series which default IP address is 10.0.0.1, the IP address of computer can be configured as 10.0.0.99 for example as following. Open the Adam/Apax .NET Utility then you can see the IP address of computer been shown under “Ethernet” tree. You can right click to refresh the subnodes of this tree. Or click “Search Device” to find WISE-4000 module.
5. There are some function provide in same pages in utility, first you can enter the account and password faster in "Login Info" tab. 6. In the "Device Info" tab, the detail information of this module will been shown 7. The "QR" tab will generate the QR code of the web configuration web page for mobile device to access the module. User can also click the QR code to open the browser for further configuration.
Note! If you are not able to search the module, you can configure the SW1 behind the module to initial mode. After power up and search the module in utility, user can find the module with default IP address, and the device name will been shown in "Others" tree with (*) sign. So user can change the device network setting in this page. Or try to locate the device and also reset the password with same page.
WISE-4000 Wireless Series provides Site Survey Tool for testing the communication quality between WISE-4000 wireless module with wireless access point or wireless router. 4.4.1 Site Survey Architecture Chapter 4 4.4 Site Survey Tool for WISE-4000 Wireless Series Wiring the wireless AP with the PC installed with Site Survey Tool (Utility), if possible, the network should only have PC, AP, and WISE-4000 only. WISE module will go to site survey mode operation for testing communication quality.
4.4.3 Site Survey Tool Search WISE-4000 module as described in the last section, after click the module shown in Ethernet tree. There is a “Site Survey” icon as following. Click the "Site Survey" icon to open site survey tool windows as following. Click "Start" to set the module in site survey mode and start the site survey tool. User can click "Restart" to restart the testing result, or click "Stop" to stop the testing and set the module back to normal operation.
Appendix A A I/O Modbus Mapping Table
A.1 Modbus Function Code Introduction To full-fill the programming requirement, there is a series of function code standard for user’s reference. Code (Hex) Name Usage 01 Read Coil Status Read Discrete Output Bit 02 Read Input Status Read Discrete Input Bit 03 Read Holding Registers 04 Read Input Registers Read 16-bit register. Used to read integer or floating point process data.
0 Read 00132 1 00133 2 00134 3 Read 00135 Average Ch 0~3 Read 00141 0 Read 00142 1 Read 00143 2 00144 3 Read 00145 Average Ch 0~3 Read Read High Alarm Flag Low Alarm Flag Read Read Address (4X): Address (4X) Channel Description Attribute 40211 Module Name 1 Read 40212 Module Name 2 Read 40221 All AI AI Channel Enabled Read/Write 40303 All DO DO Value Read/Write 40001 0 40002 1 40003 2 40004 3 Read 40005 Average Ch 0~3 Read Read Read AI Value Read
40033~40034 0 Read/Write 40035~40035 1 Read/Write 40037~40038 2 40037~40040 3 Read/Write 40101~40102 0 Read 40103~40104 1 40105~40106 2 40107~40108 3 Read 40111 0 Read 40112 1 40113 2 40114 3 40115 Average Ch 0~3 40121 0 Read 40122 1 Read 40123 2 40124 3 40125 Average Ch 0~3 Read 40131~40132 0 Read 40133~40134 1 40135~40136 2 40137~40138 3 40139~40140 Average Ch 0~3 Set Incremental Pulse AI Status* Historical Maximum AI Value Read/Write Read Read
0 40202 1 40203 2 Read/Write Read/Write AI Type Code** 40204 3 40205 Average Ch 0~3 Read/Write (The type codes of channels for Read/Write average value can't be changed.
A.
0 40011~40012 1 40013~40014 2 40015~40016 3 Read/Write 40017~40018 0 Read/Write 40019~40020 1 40021~40022 2 40023~40024 3 Read/Write 40025~40026 0 Read/Write 40027~40028 1 40029~40030 2 40031~40032 3 Pulse Output Low Level Width Pulse Output High Level Width Set Absolute Pulse Output Number Read/Write Read/Write Read/Write Read/Write Read/Write Read/Write Read/Write 40033~40034 0 Read/Write 40035~40036 1 Read/Write 40037~40038 2 40039~40040 3 Set Incremental Pulse
A.
0 40011~40012 1 40013~40014 2 40015~40016 3 Read/Write 40017~40018 0 Read/Write 40019~40020 1 40021~40022 2 40023~40024 3 Read/Write 40025~40026 0 Read/Write 40027~40028 1 40029~40030 2 40031~40032 3 Pulse Output Low Level Width Pulse Output High Level Width Set Absolute Pulse Output Number Read/Write Read/Write Read/Write Read/Write Read/Write Read/Write Read/Write 40033~40034 0 Read/Write 40035~40036 1 Read/Write 40037~40038 2 40039~40040 3 Set Incremental Pulse
A.
All DI DI Value Read 40303 All DO DO Value R/W 40001 0 40002 1 40003 Average Channel 0~1 40017~40018 0 40019~40020 1 40021~40022 0 40023~40024 1 40025~40026 0 40027~40028 1 40029~40030 0 40031~40032 1 40033~40034 0 40035~40036 1 40101~40102 0 40103~40104 1 40111 0 40112 1 40113 Average Channel 0~1 40121 0 40122 1 40123 Average Channel 0~1 40131~40132 0 40133~40134 1 40135~40136 Average Channel 0~1 40151~40152 0 40153~40154 1 40155~40156 Average Cha
171~40172 0 40173~40174 1 40175~40176 Average Channel 0~1 40191 0 40192 1 40193 Average Channel 0~1 40201 0 40202 1 40203 Average Channel 0~1 Historical Minimum AI Floating Value (IEEE754) Read Read Read Read AI Value After Scaling Read Read R/W AI Type Code** R/W (The type codes of channels for average value can't be changed.
Address 0X Channel 00001 0 Description Attribute 00002 1 00003 2 00004 3 Read 00017 0 R/W 00018 1 00019 2 00020 3 00033 0 00034 1 00035 2 00036 3 Read Read DI Value Read R/W DO Value R/W R/W R/W Counter Status (0: stop 1: start) R/W Clear Counter (1: write to clear value) R/W R/W 00037 0 Write 00038 1 Write 00039 2 00040 3 00041 0 00042 1 00043 2 00044 3 00045 0 00046 1 00047 2 00048 3 Write Write Clear Overflow (1: counter overflow, auto se
R/W 40009~40010 0 40011~40012 1 40013~40014 2 40015~40016 3 R/W 40017~40018 0 R/W 40019~40020 1 40021~40022 2 40023~40024 3 R/W 40025~40026 0 R/W 40027~40028 1 40029~40030 2 40031~40032 3 R/W Pulse Output Low Level Width R/W R/W Pulse Output High Level Width R/W Set Absolute Pulse Output Number R/W R/W R/W 40033~40034 0 R/W 40035~40036 1 R/W 40037~40038 2 40039~40040 3 WISE-4000 User Manual Set Incremental Pulse Output Number R/W R/W 84
Address 0X Channel 00001 0 Description Attribute 00002 1 00003 2 00004 3 Read 00017 0 R/W 00018 1 00019 2 00020 3 00033 0 00034 1 00035 2 00036 3 Read Read DI Value Read R/W DO Value R/W R/W R/W Counter Status (0: stop 1: start) R/W Clear Counter (1: write to clear value) R/W R/W 00037 0 Write 00038 1 Write 00039 2 00040 3 00041 0 00042 1 00043 2 00044 3 00045 0 00046 1 00047 2 00048 3 Write Write Clear Overflow (1: counter overflow, auto se
R/W 40009~40010 0 40011~40012 1 40013~40014 2 40015~40016 3 R/W 40017~40018 0 R/W 40019~40020 1 40021~40022 2 40023~40024 3 R/W 40025~40026 0 R/W 40027~40028 1 40029~40030 2 40031~40032 3 R/W Pulse Output Low Level Width R/W R/W Pulse Output High Level Width R/W Set Absolute Pulse Output Number R/W R/W R/W 40033~40034 0 R/W 40035~40036 1 R/W 40037~40038 2 40039~40040 3 WISE-4000 User Manual Set Incremental Pulse Output Number R/W R/W 86
Appendix B B REST for WISE-4000 Series
B.1 Introduction REpresentational State Transfer (REST) is a design style of software architecture for Web application behaves and services including image indication, resource request and response and message delivery. It can be developed compatible with popular protocols or standards like HTTP, URI, JSON, HTML. With the advantage of scalability, simplicity and performance, it's already adopted in Web service by Amazon, Yahoo.
B.2.1 Digital Input B.2.1.1 /di_value/slot_index/ch_num Description Retrieves information about the digital input value resource on specific slot. URL Structure http://10.0.0.1/di_value/slot_index http://10.0.0.1/di_value/slot_index/ch_num HTTP Method GET:Returns the representation of all of digital input value resource. PUT:Replace all of digital input value resource PATCH:Apply partial modifications to digital input value resource. 89 WISE-4000 User Manual Appendix B REST for WISE-4000 Series B.
Multiple Channel Request: GET /di_value/slot_index Single Channel Request: GET /di_value/slot_index/ch_num [Example] Request: GET /di_value/slot_0 GET Content-type: application/json Response: 200 OK { "DIVal": [ { "Ch":0, "Md":0, "Stat":1, "Val":1, "Cnting":0, "ClrCnt":0, "OvLch": 0 }, { "Ch":1, "Md":0, "Stat":0, "Val":0, "Cnting":0, "ClrCnt":0, "OvLch": 0 }, { "Ch":2, "Md":1, "Stat":0, "Val":3378, "Cnting":1, "ClrCnt":0, "OvLch": 0 }, { "Ch":3, "Md":3, "Stat":0, "Val":1, "Cnting":0, "ClrCnt":0, "OvLch":
Appendix B REST for WISE-4000 Series Single/Multiple Channel Request: PUT /di_value/slot_index Single Channel Request: PUT /di_value/slot_index/ch_num [Example] Request: PUT /di_value/slot_0 Content-type: application/json { "DIVal": [ { "Ch":0, "Md":0, "Stat":0, "Val":0, "Cnting":0, "ClrCnt":0, "OvLch": 0 }, { "Ch":1, "Md":0, "Stat":0, "Val":0, "Cnting":0, "ClrCnt":0, "OvLch": 0 }, { "Ch":2, "Md":1, "Stat":0, "Val":3378, "Cnting":0, "ClrCnt":1, "OvLch": 0 }, { "Ch":3, "Md":3, "Stat":0, "Val":0, "Cnting":0,
Single/Multiple Channel Request: PATCH /di_value/slot_index Single Channel Request: PATCH /di_value/slot_index/ch_num [Example] Request: PATCH /di_value/slot_0 PATCH Content-type: application/json { "DIVal": [ { "Ch":2, "Cnting": 1 }, { "Ch":3, "OvLch":0 } ] } Response: 200 OK Request: PATCH /di_value/slot_0/ch_3 Content-type: application/json { "Ch":3, "ClrCnt":1 } Response: 200 OK JSON array name definition: Field Abbreviation Data Type Array of Digital input configurations DIVal WISE-4000 User
Resource value definitions: Field Abbreviation Data Type Property Description Channel Number Ch Number R 0, 1, …: Digital input channel number. Digital input mode. Mode Signal Logic Status Md Stat Number Number R R 0 DI 1 Counter 2 LowToHighLatch 3 HighToLowLatch 4 Frequency 1, 0: Input signal is Logic High or Low.
B.2.2 Digital Output B.2.2.1 /do_value/slot_index/ch_num Description Retrieves information about the digital output value resource on specific slot. URL Structure http://10.0.0.1/do_value/slot_index http://10.0.0.1/do_value/slot_index/ch_num HTTP Method GET:Returns the representation of all of digital output value resource. PUT:Replace all of digital output value resource PATCH:Apply partial modifications to digital output value resource.
Appendix B REST for WISE-4000 Series Multiple Channel Request: GET /do_value/slot_index Single Channel Request: GET /do_value/slot_index/ch_num [Example] Request: GET /do_value/slot_0 GET Content-type: application/json Response: 200 OK { "DOVal": [ { "Ch":0, "Md":0, "Stat":1, "Val":1, "PsCtn":0, "PsStop":0, "PsIV": 0 }, { "Ch":1, "Md":0, "Stat":0, "Val":0, "PsCtn":0, "PsStop":0, "PsIV": 0 }, { "Ch":2, "Md":1, "Stat":1, "Val":3378, "PsCtn":0, "PsStop":0, "PsIV": 0 }, { "Ch":3, "Md":3, "Stat":1, "Val":1, "
Single/Multiple Channel Request: PUT /do_value/slot_index Single Channel Request: PUT /do_value/slot_index/ch_num [Example] Request: PUT /do_value/slot_0 PUT Content-type: application/json { "DOVal": [ { "Ch":0, "Md":0, "Stat":1, "Val":1, "PsCtn":0, "PsStop":0, "PsIV": 0 }, { "Ch":1, "Md":0, "Stat":0, "Val":0, "PsCtn":0, "PsStop":0, "PsIV": 0 }, { "Ch":2, "Md":1, "Stat":1, "Val":3378, "PsCtn":0, "PsStop":0, "PsIV": 0 }, { "Ch":3, "Md":3, "Stat":1, "Val":1, "PsCtn":0, "PsStop":0, "PsIV": 0 } ] } Response:
Appendix B REST for WISE-4000 Series Single/Multiple Channel Request: PATCH /do_value/slot_index Single Channel Request: PATCH /do_value/slot_index/ch_num [Example] Request: PATCH /do_value/slot_0 PATCH Content-type: application/json { "DOVal": [ { "Ch":2, "Md": 2 }, { "Ch":3, "PsStop":1 } ] } Response: 200 OK Request: PATCH /do_value/slot_0/ch_3 Content-type: application/json { "Ch":3, "PsCtn":1 } Response: 200 OK JSON array name definition: Field Abbreviation Data Type Array of Digital input con
Resource value definitions: Field Abbreviation Data Type Property Description Channel Number Ch R Number 0, 1, …: Digital output channel number. Digital output mode. Mode Signal Logic Status Md Stat Number Number R R 0 DO 1 Pulse Output 2 LowToHighDelay 3 HighToLowDelay 1, 0: Output signal is Logic High or Low.
B.2.3.1 /ai_value/slot_index/ch_num Description Retrieves information about the analog input value resource on specific slot. URL Structure http://10.0.0.1/ai_value/slot_index http://10.0.0.1/ai_value/slot_index/ch_num HTTP Method GET:Returns the representation of all of analog input value resource. PUT:None PATCH:Apply partial modifications to analog input value resource. 99 WISE-4000 User Manual Appendix B REST for WISE-4000 Series B.2.
Multiple Channel Request: GET /ai_value/slot_index Single Channel Request: GET /ai_value/slot_index/ch_num [Example] Request : GET /ai_value/slot_0 GET WISE-4000 User Manual Content-type: application/json Response: 200 OK { "AIVal": [ { "Ch":0, "En":1, "Rng":328, "Val":148, "Eg":650, "Evt":0, "LoA": 0, "HiA": 0, "HVal":190, "HEg":1250, "LVal":15, "LEg":500, "SVal":148, "ClrH": 0, "ClrL": 0 }, { "Ch":1, "En":1, "Rng":328, "Val":0, "Eg":0, "Evt":0, "LoA":0, "HiA":0, "HVal":0, "HEg":0, "LVal":0, "LEg":0, "S
Appendix B REST for WISE-4000 Series "Rng":328, "Val":0, "Eg":0, "Evt":8, "LoA":0, "HiA":0, "HVal":0, "HEg":0, "LVal":0, "LEg":0, "SVal":0, "ClrH": 0, "ClrL": 0 }, { "Ch":3, "En":1, "Rng":328, "Val":0, "Eg":0, "Evt":0, "LoA":0, "HiA":0, "HVal":0, "HEg":0, "LVal":0, "LEg":0, "SVal":0, "ClrH": 0, "ClrL": 0 }, { "Ch":4, "En":1, "Rng":328, "Val":0, "Eg":0, "Evt":0, "LoA":0, "HiA":0, "HVal":0, "HEg":0, "LVal":0, "LEg":0, "SVal":0, "ClrH": 0, "ClrL": 0 } ] } Request : GET /ai_value/slot_0/ch_2 Content-type: appl
Single/Multi Channel Request: PATCH /ai_value/slot_index Single Channel Request: PATCH /ai_value/slot_index/ch_num [Example] Request: PATCH /ai_value/slot_0 Content-type: application/json { "AIVal": [ { "Ch":2, "LoA": 0 }, { "Ch":3, "HiA":0 } ] } PATCH Response: 200 OK Request: PATCH /ai_value/slot_0/ch_3 Content-type: application/json { "LoA":0 } Response: 200 OK JSON array name definition: Field Abbreviation Data Type Array of Analog input configurations AIVal Array WISE-4000 User Manual 102
Resource value definitions (Total channels = AI channel number + 1 average channel): Field Channel Number Abbreviation Ch Data Type Number Property Description R 0, 1, …: Analog input channel number. Note for the average channel: The average channel number for a 4-ch AI module is 4. Analog input range. Range code Input Range Rng Number R 328 (0x0148) 0 – 10 V 259 (0x0103) +/- 150 mV 260 (0x0104) +/- 500 mV 320 (0x0140) +/- 1 V 321 (0x0141) +/- 2.
Maximum AI Engineering data HEg Number R AI max. engineering data, the value is 1/1000 scale For example, 1020010.2 Minimum AI Raw Value LVal Number R AI min. measurement data (Raw data) Minimum AI Engineering data LEg Number R AI min. engineering data, the value is 1/1000 scale For example, 250 0.
B.2.4.1 /log_message Description Retrieves the log data in system memory. URL Structure http://10.0.0.1/log_message HTTP Method GET: According to the setting of filtering, server returns the all/partial of logged data.
JSON array name definition: Field Abbreviation Data Type Array of log messages LogMsg Array Array of I/O records Record Array Resource value definitions: Field Abbreviations Data type Property Description Recording mode of storage 1 DI 2 Periodic/Event 128 Number R 4 DO Event from AI 8 AO 16 128 Timestamp TIM String R WDT Periodic Timestamp of the storage “Coordinated Universal Time (UTC) Ex. “1415757750” corresponds to November 12, 2014, 2:02:30 am, Standard Time.
Appendix B REST for WISE-4000 Series WISE-4000 User Manual 107
www.advantech.com Please verify specifications before quoting. This guide is intended for reference purposes only. All product specifications are subject to change without notice. No part of this publication may be reproduced in any form or by any means, electronic, photocopying, recording or otherwise, without prior written permission of the publisher. All brand and product names are trademarks or registered trademarks of their respective companies. © Advantech Co., Ltd.
Federal Communication Commission Interference Statement This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications.
Notes and Warnings to the User and Installer: Caution: This Installation Guide is intended for use by the professional wireless LAN system installer. The device cannot be sold retail, to the general public or by mail order. It must be sold to dealers or have strict marketing control. Warning: It is the responsibility of the professional installer to ensure that the system is used exclusively for fixed, point-to-point operations.
