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1 | users manual | Users Manual | 230.34 KiB |
Model: MHX920A Operating Manual MHX920 900 MHz Spread Spectrum OEM Transceiver Revision 0.10, January 9, 2006 Microhard Systems Inc.
#17, 2135 32nd Ave N.E. Calgary, Alberta T3K 4Z4 Phone: (403) 248-0028 Fax: (403) 248-2762 www.microhardcorp.com Warranty Microhard Systems Inc. warrants that each product will be free of defects in material and workmanship for a period of one (1) year for its products. The warranty commences on the date the product is shipped by Microhard Systems Inc. Microhard Systems Inc.s sole liability and responsibility under this warranty is to repair or replace any product which is returned to it by the Buyer and which Microhard Systems Inc. determines does not conform to the warranty. Product returned to Microhard Systems Inc. for warranty service will be shipped to Microhard Systems Inc. at Buyers expense and will be returned to Buyer at Microhard Systems Inc.s expense. In no event shall Microhard Systems Inc. be responsible under this warranty for any defect which is caused by negligence, misuse or mistreatment of a product or for any unit which has been altered or modified in any way. The warranty of replacement shall terminate with the warranty of the product. Warranty Disclaims Microhard Systems Inc. makes no warranties of any nature of kind, expressed or implied, with respect to the hardware, software, and/or products and hereby disclaims any and all such warranties, including but not limited to warranty of non-infringement, implied warranties of merchantability for a particular purpose, any interruption or loss of the hardware, software, and/or product, any delay in providing the hardware, software, and/or product or correcting any defect in the hardware, software, and/or product, or any other warranty. The Purchaser represents and warrants that Microhard Systems Inc. has not made any such warranties to the Purchaser or its agents MICROHARD SYSTEMS INC. EXPRESS WARRANTY TO BUYER CONSTITUTES MICROHARD SYSTEMS INC. SOLE LIABILITY AND THE BUYERS SOLE REMEDIES. EXCEPT AS THUS PROVIDED, MICROHARD SYSTEMS INC. DISCLAIMS ALL WARRANTIES, EXPRESS OR IMPLIED, INCLUDING ANY WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PROMISE. MICROHARD SYSTEMS INC. PRODUCTS ARE NOT DESIGNED OR INTENDED TO BE USED IN ANY LIFE SUPPORT RELATED DEVICE OR SYSTEM RELATED FUNCTIONS NOR AS PART OF ANY OTHER CRITICAL SYSTEM AND ARE GRANTED NO FUNCTIONAL WARRANTY. Indemnification The Purchaser shall indemnify Microhard Systems Inc. and its respective directors, officers, employees, successors and assigns including any subsidiaries, related corporations, or affiliates, shall be released and discharged from any and all manner of action, causes of action, liability, losses, damages, suits, dues, sums of money, expenses
(including legal fees), general damages, special damages, including without limitation, claims for personal injuries, death or property damage related to the products sold hereunder, costs and demands of every and any kind and nature whatsoever at law. IN NO EVENT WILL MICROHARD SYSTEMS INC. BE LIABLE FOR ANY INDIRECT, SPECIAL, CONSEQUENTIAL, INCIDENTAL, BUSINESS INTERRUPTION, CATASTROPHIC, PUNITIVE OR OTHER DAMAGES WHICH MAY BE CLAIMED TO ARISE IN CONNECTION WITH THE HARDWARE, REGARDLESS OF THE LEGAL THEORY BEHIND SUCH CLAIMS, WHETHER IN TORT, CONTRACT OR UNDER ANY APPLICABLE STATUTORY OR REGULATORY LAWS, RULES, REGULATIONS, EXECUTIVE OR ADMINISTRATIVE ORDERS OR DECLARATIONS OR OTHERWISE, EVEN IF MICROHARD SYSTEMS INC. HAS BEEN ADVISED OR OTHERWISE HAS KNOWLEDGE OF THE POSSIBILITY OF SUCH DAMAGES AND TAKES NO ACTION TO PREVENT OR MINIMIZE SUCH DAMAGES. IN THE EVENT THAT REGARDLESS OF THE WARRANTY DISCLAIMERS AND HOLD HARMLESS PROVISIONS INCLUDED ABOVE MICROHARD SYSTEMS INC. IS SOMEHOW HELD LIABLE OR RESPONSIBLE FOR ANY DAMAGE OR INJURY, MICROHARD SYSTEMS INC.'S LIABILITY FOR ANYDAMAGES SHALL NOT EXCEED THE PROFIT REALIZED BY MICROHARD SYSTEMS INC. ON THE SALE OR PROVISION OF THE HARDWARE TO THE CUSTOMER. Proprietary Rights The Buyer hereby acknowledges that Microhard Systems Inc. has a proprietary interest and intellectual property rights in the Hardware, Software and/or Products. The Purchaser shall not (i) remove any copyright, trade secret, trademark or other evidence of Microhard Systems Inc.s ownership or proprietary interest or confidentiality other proprietary notices contained on, or in, the Hardware, Software or Products, (ii) reproduce or modify any Hardware, Software or Products or make any copies thereof, (iii) reverse assemble, reverse engineer or decompile any Software or copy thereof in whole or in part, (iv) sell, transfer or otherwise make available to others the Hardware, Software, or Products or documentation thereof or any copy thereof, except in accordance with this Agreement. ii MHX920 Operating Manual MHX920 Regulatory Requirements PLEASE READ THIS SECTION CAREFULLY WARNING:
To satisfy FCC RF exposure requirements for mobile transmitting devices, a separation distance of 23 cm or more should be maintained between the antenna of this device and persons during device operation. To ensure compliance, operations at closer than this distance is not recommended. The antenna used for this transmitter must not be co-located in conjunction with any other antenna or transmitter. WARNING:
Changes or modifications not expressly approved by Microhard Systems Inc. could void the users authority to operate the equipment. This device has been tested with MCX and Reverse Polarity SMA connectors with the antennas listed in Appendix A When integrated in OEM products, fixed antennas require installation preventing end-users from replacing them with non-approved antennas. Antennas not listed in the tables must be tested to comply with FCC Section 15.203 (unique antenna connectors) and Section 15.247
(emissions). WARNING:
MAXIMUM EIRP FCC Regulations allow up to 36 dBm equivalent isotropically radiated power (EIRP). Therefore, the sum of the transmitted power (in dBm), the cabling loss and the antenna gain cannot exceed 36 dBm. WARNING:
EQUIPMENT LABELING The FCC and IC numbers depend on the model of the radio module. Do NOT use the Marketing Name of the product but the Model to distinguish the Certifications Numbers. This device has been modularly approved. The manufacturer, product name, and FCC and Industry Canada identifiers of this product must appear on the outside label of the end-user equipment. SAMPLE LABEL REQUIREMENT for Model: MHX920A:
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. Contains:
FCCID: NS905P20 IC : 3143A-05P20 MHX-920 Operating Manual: Contents iii Contents Warranty....................................................................................................................................................................... ii Warranty Diclaims........................................................................................................................................................ ii Indemnification............................................................................................................................................................. ii Proprietary Rights......................................................................................................................................................... ii MHX920 Regulatory Requirements ............................................................................................................................ iii CONTENTS .............................................................................................................................................................. IV 2. GENERAL ...........................................................................................................................................................1 PRODUCT OVERVIEW........................................................................................................................................................ 1 OUTPUT POWER LEVEL..................................................................................................................................................... 2 INSTALLATION.................................................................................................................................................4 OVERVIEW ....................................................................................................................................................................... 4 ESTIMATING THE GAIN MARGIN ....................................................................................................................................... 4 ANTENNAS AND CABLING................................................................................................................................................. 6 3.2.1 ........................................................................................................................Internal Cabling
...............................................................................................................................................................................6 3.2.2 ............................................................Installing External Cables, Antennas and Lightning Arrestors
...............................................................................................................................................................................7 3.0 3.1 3.2 2.0 2.1 3. iv MHX920 Operating Manual 2. General 2.0 Product Overview The MHX920 is a high-performance embedded wireless data transceiver. Operating in the 902 - 928 MHz ISM band, this frequency-hopping spread-
spectrum module is capable of providing reliable wireless data transfer between almost any type of equipment which uses an asynchronous serial interface. The small-size and superior RF performance of this module make it ideal for many applications. While a pair of MHX920 modules can link two terminal devices (point-to-
point operation); multiple modules can be used together to create a network of various topologies, including point-to-multipoint and repeater operation. Multiple independent networks can operate concurrently, so it is possible for unrelated communications to take place in the same or a nearby area without sacrificing privacy or reliability. 1.1 Features Key features of the MHX920 include:
transmission within a public, license-exempt band of the radio spectrum1 this means that it can be used without access fees
(such as those incurred by cellular airtime).
a serial I/O data port with handshaking and hardware flow control, allowing the MHX920 to interface directly to any equipment with an asynchronous serial interface.
ease of installation and use the MHX920 module uses a subset of standard AT style commands, very similar to those used by traditional telephone line modems.
all units in a system are physically identical, and can be configured as a master, repeater or slave using the AT command set. No hardware modifications are required
128 sets of user-selectable pseudo-random hopping patterns, intelligently designed to offer the possibility of separately operating multiple networks while providing security, reliability and high tolerance to interference.
encryption key with 65536 user-selectable values to maximize security and privacy of communications.
32-bit of CRC error detection and auto re-transmit to provide accuracy and reliability of data. 1 902-928 MHz, which is license-free within North America; may need to be factory-
configured differently for some countries. MHX-920 Operating Manual: Chapter2 General 1
TDMA (time division multiple access) support, allowing multi-slave access in point-to-point mode.
roaming ability, allowing repeaters and slaves to re-
synchronize with a new master if the synchronization pulse from the original master is lost. While the typical application for the MHX920 is to provide a short- to mid-
range wireless communications link between DTEs, it can be adapted to almost any situation where an asynchronous serial interface is used and data intercommunication is required. 2.1 Output Power Level The Output Power Level determines at what power the MHX920 transmits. The MHX920s sensitive receiver can operate with very low power levels, so it is recommended that the lowest power necessary is used; using excessive power contributes to unnecessary RF pollution. Ideally, you should test the communications performance between units starting from a low power level and working upward until the RSSI is sufficiently high and a reliable link is established. The conditions will vary widely between applications, the output power settings can be calculated based on following information. Transmitter antenna gain Cable loss Effective radiated power (ERP) requirement by FCC Regulations Power Setting = 36 Antenna Gain Cable Loss The power setting must be no more than the above calculation value. Any higher is a violation of FCC rules. See IMPORTANT warning below. Table 1 Output Power Power Setting
(dBm) Approx. Output Power
(mW) 0 20 21 22 23 24 25 26 27 28 29 30 1 100 125 160 200 250 320 400 500 630 800 1000 2 MHX-920 Operating Manual: Chapter 2 General MHX-920 Operating Manual: Chapter2 General 3 3. Installation 3.0 Overview Qualified and experienced personnel must carry out the installation, removal or maintenance of all antenna components. The MHX920 complies with FCC part 15 at the modular level for operation in the license-free 902-928 MHz ISM band. This chapter provides guidelines for installing and deploying equipment which incorporates the MHX920 module. 3.1 Estimating the Gain Margin Successful communication between MHX920 modules is dependent on three main factors:
System Gain Path Loss System gain is a calculation in dB describing the performance to be expected between a transmitter-receiver pair. The number can be calculated based on knowledge of the equipment being deployed. The following four factors make up a system gain calculation:
1. Transmitter power (user selectable) 2. Transmitter gain (transmitting antenna gain minus cabling loss between Interference the transmitting antenna and the MHX920 module) 3. Receiver gain (Receiving antenna gain minus cabling loss between the receiving antenna and the module) 4. Receiver sensitivity (Specified as -108dBm on the MHX920 module) In the following illustration, the transmitting antenna has a gain of 6 dB, and the receiving antenna has a gain of 3 dB. The cable loss between the module and the antenna is 2 dB on both the transmitting and receiving side. Cable Loss = 2 dB Cable Loss = 2 dB Antenna Gain = 6 dB Antenna Gain = 3 dB Receiver Sensitivity =
-105 dBm Transmitter 30 dBm Output Power 4 MHX-920 Operating Manual: Chapter 3 Installation Figure 1 Gain Calculation The power level has been set to 30dBm (1W) on the transmitter, and the receiver sensitivity for the MHX920 is -108dBm. System gain would be calculated to be:
30 - 2 + 6 + 3 - 2 + 108 = 143 dB. Base Height (m) Mobile Height
(m) Distance (km) Figure 2 System Deploying When deploying your system, care must be taken to ensure the path loss
(reduction of signal strength from transmitter to receiver in dB) between equipment does not exceed the system gain (140 dB in the above example). It is recommended to design for a gain margin of at least 20 dB to ensure reliable communication. Gain margin is the difference between system gain and path loss. Referring to the same example, suppose the path loss is 100 dB, the gain margin would be 40 dB, which is more than adequate for reliable communication. Path loss is a very complicated calculation which mainly depends on the terrain profile, and the height of the antennas off the ground. The following table provides path loss numbers for varying antenna heights and antenna separation: These numbers are real averages taken from rural environments. They do not apply to urban, non-line-of-sight environments. Table 2 Path Loss Distance
(km) 5 5 8 8 8 16 16 16 16 16 16 Base Height
(m) 15 30 15 15 15 15 15 15 30 30 30 Mobile Height
(m) 2.5 2.5 2.5 5 10 2.5 5 10 10 5 2.5 Path Loss
(dB) 116.5 110.9 124.1 117.7 105 135.3 128.9 116.2 109.6 122.4 128.8 MHX-920 Operating Manual:Glossary 5 WARNING:
Qualified and experienced personnel must carry out the installation, removal or maintenance of all antenna components. Once the equipment is deployed, you can verify the signal strength by entering into Command Mode and reading Register S123. This register provides the average signal strength in dBm. The minimum strength for communication is roughly -108dBm. For consistent reliable communication, you should try to deploy the equipment such that signal strength exceeds -95dBm. 3.2 Antennas and Cabling This section describes the recommended procedure for installing cabling and antennas for use with the MHX920 module. 3.2.1 Internal Cabling The most common method for installing the module is to run a cable from the modules MCX connector to a reverse TNC bulkhead connector on the chassis of the equipment as shown in Figure 3. This cable can be purchased from Microhard Systems. Reverse TNC Connector RG316 Cable with MCX male connector and Reverse TNC bulkhead connector MCX female connector 0 2 9 X H M Figure 3 Suggested Internal Cabling Cable losses are negligible for the short piece used within the chassis. Additional losses up to 0.5 dB may be present in the MCX and Reverse TNC connections. 6 MHX-920 Operating Manual: Glossary WARNING:
To satisfy FCC RF exposure requirements for mobile transmitting devices, a separation distance of 23 cm or more should be maintained between the antenna of this device and persons during device operation. To ensure compliance, operations at closer than this distance is not recommended. The antenna used for this transmitter must not be co-located in conjunction with any other antenna or transmitter. WARNING:
Direct human contact with the antenna is potentially unhealthy when the MHX920 is generating RF energy. Always ensure that the MHX920 equipment is powered down during installation. WARNING:
Never work on an antenna system when there is lightning in the area. 3.2.2 Installing External Cables, Antennas and Lightning Arrestors Qualified and experienced personnel must carry out the installation, removal or maintenance of all antenna components. Never work on an antenna system when there is lightning in the area. Direct human contact with the antenna is potentially unhealthy when the MHX920 is generating RF energy. Always ensure that the MHX920 equipment is powered down during installation. At all times a distance of 23 cm must be maintained between the antenna and any person when the device is in operation. Surge Arrestors The most effective protection against lightning is to install two lightning
(surge) arrestors, one at the antenna, the other one at the interface with the equipment. The surge arrestor grounding system should be fully interconnected with the transmission tower and power grounding systems to form a single, fully integrated ground circuit. Typically, both ports on surge arrestors are N-female. External Filter Although the MHX920 is capable of filtering out RF noise in most environments, there are circumstances that require external filtering. Paging towers and cellular base stations in close proximity to the MHX920 antenna can desensitize the receiver. Microhard Systems external cavity filter eliminates this problem. The filter has two N-female ports and should be connected in line at the interface to the RF equipment. Weatherproofing Type N and RTNC connectors are not weatherproof. All connectors should be taped with rubber splicing tape (weatherproofing tape), and then coated with a sealant. Cabling The following coax cables are recommended:
Table 3 Cable Loss Cable Loss (dB/100ft) LMR 195 LMR 400 LMR 600 10.7 3.9 2.5 Factors to take into consideration when choosing a cable are:
price;
bend radius limitations (the lower performance cables generally can bend more sharply) performance requirements; and, distance between the equipment and the antenna. MHX-920 Operating Manual:Glossary 7 WARNING:
MAXIMUM ERP FCC and IC Regulations allow up to 36dBm effective radiated power (ERP). Therefore, the sum of the transmitted power (in dBm), the cabling loss and the antenna gain cannot exceed 36 dBm with respect to the isotropic radiator. WARNING:
The MHX920 can only be used with any antennas listed in Appendix A. WARNING:
Be careful with dBi vs dBd gains on antenna specifications. Antenna manufactures may not clearly indicate the gain on the antenna if it is dBd or dBi. Note 1dBd = 2.15dBi. When installing the cable, always begin fastening at the top near the antenna connector/surge arrestor. The cable must be supported at the top with a hose clamp or wrap lock, and at 5 ft intervals down the length of the tower. Over-tightening the fasteners will dent the cable and reduce performance. If properly grounded surge arrestors are not installed at both the top and the bottom of the cable, then the cable should be grounded to the tower at these locations using a cable grounding kit. If the tower is non-
conductive, then a separate conductor, physically separate from the cable, should be run down the tower. Antenna Before choosing an antenna, you should have some knowledge of the path loss and the topology of the equipment. If the equipment is in a fixed location and is to communicate with only one other unit also in a fixed location, then a Yagi antenna is suitable. Choose a Yagi with enough gain to ensure adequate gain margin. When deploying the Yagi, point the antenna towards the intended target, ensuring the antenna elements are perpendicular to the ground for vertical polarization. In applications where there are multiple units that you must communicate with or units, which are in motion, you may select an Omni-directional antenna with appropriate gain. See appendix A for a list of approved antennas that can be used with the MHX920 radio modem. If you require another type of antenna please contact Microhard Systems Inc. The MHX920 CANNOT be used with any antenna that does not appear in Appendix A. Microhard Systems Inc. can provide you with approved antennas to ensure FCC and Industry Canada compliance. FCC Regulations allow up to 36dBm effective radiated power (ERP). Therefore, the sum of the transmitted power (in dBm), the cabling loss and the antenna gain cannot exceed 36dBm with respect to the isotropic radiator. ERP is calculated as follows:
ERP = Tx Power(dBm) - Cable/Connector Loss(dB) + Ant Gain(dBi) Antenna Gains must be in dBi when calculating the 36dBm ERP limit. 1dBd = 2.15dBi Use the guidelines in the previous section for calculating cable and connector losses. If cabling and connector losses are 2 dB, then the maximum allowable gain of the antenna will be 8 dB. 8 MHX-920 Operating Manual: Glossary Examples:
FCC and Industry Canada Regulations allow up to 36dBm effective radiated power (ERP). Therefore, the sum of the transmitted power (in dBm), the cabling loss and the antenna gain cannot exceed 36dBm with respect to the isotropic radiator. Example 1) What is the maximum power the MHX920 can be set to comply with FCC and IC given the following equipment given a Rubber Ducky Ant Gain 2dBi and no cable or connectors in the system?
Max ERP 36dBm Max TX power = ERP Ant Gain(dBi) + Cable/Connector loss (dB) Ant Gain dBi = 2dBi Max TX power = 36dBm 2dBi + 0dB = 34dBm We can set the modem to the maximum power setting of 30dBm. Example 2) What is the maximum power the MHX920 can be set to comply with FCC and IC given the following equipment given a Yagi Ant Gain 12dBd and cable and connector loss of 4.5 dB?
Max ERP 36dBm Max TX power = ERP Ant Gain(dBi) + Cable/Connector loss (dB) Ant Gain dBi = Ant Gain dBd + 2.15 dB Yagi Gain (dBi) = 12 + 2.15 = 14.15dBi Max TX power = 36dBm 14.15dB + 4.5dB = 26.35dBm We must round down Hence Max TX power = 26dBm Example 3) What is the maximum power the MHX920 can be set to comply with FCC and IC given the following equipment given a Omni Ant Gain 6dBd and cable and connector loss of 2.5 dB?
Max ERP 36dBm Max TX power = ERP Ant Gain(dBi) + Cable/Connector loss (dB) Ant Gain dBi = Ant Gain dBd + 2.15 dB Omni Gain (dBi) = 6 + 2.15 = 8.15dBi Max TX power = 36dBm 8.15dB + 2.5dB = 30.35dBm Hence Max TX power = 30dBm MHX-920 Operating Manual:Glossary 9 A. Approved Antennas Group Quarter Wave Rubber Ducky Transit Antennas Yagi Antennas Omni Directional Part Number MHS031010 MHS031020 MHS031030 MHS031040 MHS031050 MHS031060 MHS031000 MHS031070 MHS031080 MHS031210 MHS031220 MHS031230 MHS031240 MHS031311 MHS031431 MHS031501 MHS031441 MHS031451 MHS031401 MHS031411 MHS031251 MHS031461 MHS031321 MHS031471 Description
<1.5dBi, 900MHz 1/4 Wave Antenna Reverse SMA Right Angle
<1.5dBi, 900MHz 1/4 Wave Antenna Reverse SMA Straight
<1.5dBi, 900MHz 1/4 Wave Antenna Reverse SMA Right Angle MHS
<1.5dBi, 900MHz 1/4 Wave Antenna Reverse SMA Straight MHS
<1.5dBi, 900MHz 1/4 Wave Antenna MCX Right Angle MHS
<1.5dBi, 900MHz 1/4 Wave Antenna Reverse SMA Straight 2dBi, 900MHz Rubber Ducky Antenna RPTNC Swivel 2dBi, 900MHz Rubber Ducky Antenna Reverse SMA Swivel 2dBi, 900MHz Rubber Ducky Antenna Reverse SMA Straight 3dBd, 900 MHz Transit Antenna with Ground Plane 3dBd, 900MHz Transit Antenna No Ground Plane 3dBd, 900MHz Transit Antenna Permanent Mount GP 3dBd, 900MHz Transit Antenna Permanent Mount NGP Mounts for Transit Antennas have a RPTNC Pigtail 6dBd, 900MHz Yagi Directional Antenna Antenex, RPTNC Pigtail 6.5dBd, 900MHz Yagi Directional Antenna Bluewave, RPTNC Pigtail 9dBd, 900MHz Yagi Directional Antenna Antenex, RPTNC Pigtail 10dBd, 900 MHz Yagi Directional Antenna Bluewave, RPTNC Pigtail 11dBd, 900 MHz Yagi Directional Antenna Bluewave, RPTNC Pigtail 12dBd, 900MHz Yagi Directional Antenna Antenex, RPTNC Pigtail 12dBd, 900MHz Yagi Directional Antenna Bluewave, RPTNC Pigtail 3dBd, 900MHz Omni Directional Antenna Antenex, RPTNC Pigtail 3dBd, 900 MHz Omni Directional Antenna Bluewave, RPTNC Pigtail 6dBd, 900MHz Omni Directional Antenna Antenex, RPTNC Pigtail 6dBd, 900 MHz Omni Directional Antenna Bluewave, RPTNC Pigtail WARNING:
Changes or modifications not expressly approved by Microhard Systems Inc. could void the users authority to operate the equipment. This device has been tested with MCX and Reverse Polarity SMA connectors with the antennas listed in Appendix A When integrated in OEM products, fixed antennas require installation preventing end-users from replacing them with non-approved antennas. Antennas not listed in the tables must be tested to comply with FCC Section 15.203 (unique antenna connectors) and Section 15.247 (emissions). Please Contact Microhard Systems Inc. if you need more information. 10 MHX-920 Operating Manual: Glossary MHX-920 Operating Manual:Glossary 11
1 | antenna list | Operational Description | 162.53 KiB |
A. Approved Antennas Group Quarter Wave Rubber Ducky Transit Antennas Yagi Antennas Omni Directional Part Number MHS031010 MHS031020 MHS031030 MHS031040 MHS031050 MHS031060 MHS031000 MHS031070 MHS031080 MHS031210 MHS031220 MHS031230 MHS031240 MHS031311 MHS031431 MHS031501 MHS031441 MHS031451 MHS031401 MHS031411 MHS031251 MHS031461 MHS031321 MHS031471 Description
<1.5dBi, 900MHz 1/4 Wave Antenna Reverse SMA Right Angle
<1.5dBi, 900MHz 1/4 Wave Antenna Reverse SMA Straight
<1.5dBi, 900MHz 1/4 Wave Antenna Reverse SMA Right Angle MHS
<1.5dBi, 900MHz 1/4 Wave Antenna Reverse SMA Straight MHS
<1.5dBi, 900MHz 1/4 Wave Antenna MCX Right Angle MHS
<1.5dBi, 900MHz 1/4 Wave Antenna Reverse SMA Straight 2dBi, 900MHz Rubber Ducky Antenna RPTNC Swivel 2dBi, 900MHz Rubber Ducky Antenna Reverse SMA Swivel 2dBi, 900MHz Rubber Ducky Antenna Reverse SMA Straight 3dBd, 900 MHz Transit Antenna with Ground Plane 3dBd, 900MHz Transit Antenna No Ground Plane 3dBd, 900MHz Transit Antenna Permanent Mount GP 3dBd, 900MHz Transit Antenna Permanent Mount NGP Mounts for Transit Antennas have a RPTNC Pigtail 6dBd, 900MHz Yagi Directional Antenna Antenex, RPTNC Pigtail 6.5dBd, 900MHz Yagi Directional Antenna Bluewave, RPTNC Pigtail 9dBd, 900MHz Yagi Directional Antenna Antenex, RPTNC Pigtail 10dBd, 900 MHz Yagi Directional Antenna Bluewave, RPTNC Pigtail 11dBd, 900 MHz Yagi Directional Antenna Bluewave, RPTNC Pigtail 12dBd, 900MHz Yagi Directional Antenna Antenex, RPTNC Pigtail 12dBd, 900MHz Yagi Directional Antenna Bluewave, RPTNC Pigtail 3dBd, 900MHz Omni Directional Antenna Antenex, RPTNC Pigtail 3dBd, 900 MHz Omni Directional Antenna Bluewave, RPTNC Pigtail 6dBd, 900MHz Omni Directional Antenna Antenex, RPTNC Pigtail 6dBd, 900 MHz Omni Directional Antenna Bluewave, RPTNC Pigtail WARNING:
Changes or modifications not expressly approved by Microhard Systems Inc. could void the users authority to operate the equipment. This device has been tested with MCX and Reverse Polarity SMA connectors with the antennas listed in Appendix A When integrated in OEM products, fixed antennas require installation preventing end-users from replacing them with non-approved antennas. Antennas not listed in the tables must be tested to comply with FCC Section 15.203 (unique antenna connectors) and Section 15.247 (emissions). Please Contact Microhard Systems Inc. if you need more information. 10 MHX-920 Operating Manual: Glossary
1 | cover letter | Cover Letter(s) | 79.53 KiB |
January 9, 2006 Timco Engineering, Inc. 849 N.W. State Road 45 P.O. Box 370 Newberry, Florida 32669 USA Subject:
UltraTech Group of Labs 31040/SIT C-1376 46390-2049 200093-0 2 00-034 SL2-IN-E-1119R Tri Minh Luu, P. Eng., V.P., Engineering 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel.: (905) 829-1570 Fax.: (905) 829-8050 Website: www.ultratech-labs.com Email: vic@ultratech-labs.com FCC Certification Authorization Application Under FCC PART 15, Subpart C, Section 15.247 - Frequency Hopping Spread Spectrum
(FHSS) Operating in 902 - 928 MHz Band. Product:
Model No.:
FCC ID:
MHX920 - 900 MHz OEM Frequency Hopping Module MHX920A NS905P20 Dear Sir/Madam As appointed agent for Microhard Systems Inc., we would like to submit the application to the Timco Engineering, Inc. for certification of the above product. Please review all files uploaded to TIMCO electronic filing site.
Modular Transmitter Approval Request: This application is subject to the FCC certification for a modular transceiver, please kindly refer to Microhard Systems Inc. Letter requesting for Modular Approval and clarification of compliance for this modular transmitter with FCC Public Notice DA 00-1407. NOTE: All confidential items will be submitted by Microhard Systems Inc. directly to Timco Engineering, Inc. If you have any queries, please do not hesitate to contact us. Yours truly,
1 | modular approval request | Cover Letter(s) | 97.73 KiB |
Microhard Systems Inc. 900MHz OEM Frequency Hopping Module MHX920A NS905P20 December 20, 2005 FEDERAL COMMUNICATIONS COMMISSION 7435 Oakland Mills Road Columbia, MD 21046 U.S.A. Subject: Request for Modular Approval Applicant:
Product:
Model:
FCC ID:
Dear Sir/Madam, We, Microhard Systems Inc., request modular approval included below is a clarification on the modular compliance. Hany Shenouda Director of Engineering Microhard Systems Inc.
(a)
(b)
(c)
(d)
(e) 1. Requirements for Modular Transmitters In order to be considered a transmitter module, the device must be complete RF transmitter, i.e., it must have its own reference oscillator (e.g., VCO), antenna, etc. The only connectors to the module, if any, may be power supply and modulation/data inputs Compliance with FCC RF Exposure requirements may, in some instances, limit the output power of a module and/or the final applications in which the approved module may be employed While the applicant for a device into which an authorized module is installed is not required to obtain a new authorization for the module, this does not preclude the possibility that some other form of authorization or testing may be required for the device (e.g., a WLAN into which the authorized module is installed still be authorized as PC peripheral, subject to the appropriate equipment authorization) In the case of a modular transceiver, the modular approval policy only applies to the transmitter portion of such devices. Pursuant to section 15.101(b), the receiver portion will either be subject to Verification, or it will not be subject to any authorization requirements (unless if is a Scanning Receiver, in which case it is also subject to Certification, pursuant to Section 15.101(a) The holder of the grant of equipment authorization (Grantee) of the module is responsible for the compliance of the module in its final configuration, provided that the OEM, integrator, and /or end user has complied with all of the instructions provided by the Grantee which indicate installation and/or operating conditions necessary for compliance. Manufacturers Clarification The transmitter is completed with its own reference oscillator, antenna. Only connectors provide are dc supply, data and rf ports are provided with the modular transmitter The radio is intended for use in all applications
(portable, mobile and base). It complies with SAR test with body tissue. The radio is intended for use with mobile or fixed base stations only. It complies with MPE per 2.1091 & 1.1307 The equipment under complies with FCC Part15, Subpart B, Class B Unintentional radiators The receiver operates in the band above 960 MHz;
therefore, the FCC authorization for the receiver is exempted. End-users must comply with the following instruction sated in the users manual:
Labeling requirement for equipment using this modular transmitter. RF Exposure Warning for compliance with FCC Rules 2.1091 and 1.1307 when the radio is used in a mobile or base system Requirements for Modular Transmitters The modulator transmitter must have its own RF shielding. This is intended to ensure that the module does not have to reply upon the shielding provided by the device into which it is installed in order for all modular transmitter emissions to comply with Part 15 limits. It is also intended to prevent coupling between the RF circuitry of the module and any wires or circuits in the device Manufacturers Clarification The modular transmitter has its own RF shielding The modular transmitter has buffered modulation/data inputs The modular transmitter has its own power supply regulation. The radio and its associated antennas are provided with the special coupling antenna connectors (MCX or reversed SMA). The modular transmitter was tested in a stand-alone configuration 2. 3. 4. 5. into which the module is installed. Such coupling may result in noncompliant operation. The modular transmitter must have buffered modulation/data inputs (if such inputs are provided) to ensure that the module will comply with Part 15 requirements under conditions of excessive data rates or overmodulation. The modular transmitter must have its own power supply regulation. This is intended to ensure that the module will comply with Part 15 requirements regardless of the design of the power supplying circuitry in the device into which the module is installed. The modular transmitter must comply with the antenna requirements of section 15.203 and 15.204(c). The antenna must either be permanently attached or employ a unique antenna coupler (at all connections between the module and the antenna, including the cable). Any antenna used with the module must be approved with the module, either at the time of initial authorization or through a Class II permissive change. The professional installation provision of Section 15.203 may not be applied to modules. The modular transmitter must be tested in a stand-alone configuration, i.e., the module must not be inside another device during testing. This is intended to demonstrate that the module is capable of complying with Part 15 emission limits regardless of the device into which it is eventually installed. Unless the transmitter module will be battery powered, it must comply with the AC conducted requirements found in Section 15.207. AC or DC power lines and data input/output lines connected to the module must not contain ferrites, unless they will marketed with the module (see Section 15.27(a)). The length of these lines shall be length typical of actual use or, if that length is unknown, at least 10 centimeters to insure that there is no coupling between the case of the module and supporting equipment. Any accessories, peripherals, or support equipment connected to the module during testing shall be unmodified or commercially available (See Section 15.31(I)).
1 | request for confidentiality | Cover Letter(s) | 78.31 KiB |
December 20, 2005 FEDERAL COMMUNICATIONS COMMISSION 7435 Oakland Mills Road Columbia, MD 21046 U.S.A. Subject: Request for withholding from public disclosure the schematic diagrams and system block diagrams, parts lists and operational description pursuant to an application for certification. Applicant:
Product:
Model:
FCC ID:
Microhard Systems Inc. 900MHz OEM Frequency Hopping Module MHX920A NS905P20 Dear Sir/Madam, We, Microhard Systems Inc., would like to request that the schematic diagrams, system block diagrams, parts list and operational description, submitted with the application for certification be withheld from public disclosure as per Section 0.459 of FCC Rules. This request is made under the provisions of Section 0.457(d) of the Commission's Rules, and Section 552(b)(4) of the Freedom of Information Act. These sections authorize as a withholding from public inspection materials which would be privileged as a matter of law if retained by the person submitting them, and materials which would not customarily be released to the public by that person. If you have any queries, please do not hesitate to contact us:
Tel: (403) 248-0028 Fax: (403) 248-2762 Yours truly, Hany Shenouda Director of Engineering Microhard Systems Inc.
1 | test report | Test Report | 1.38 MiB |
MHX920 - 900 MHz OEM Frequency Hopping Module Model No.: MHX920A FCC ID: NS905P20 Applicant:
Microhard Systems Inc.
#17, 2135 - 32nd Avenue N.E. Calgary, Alberta Canada T2E 6Z3 In Accordance With Federal Communications Commission (FCC) Frequency Hopping Spread Spectrum (FHSS) Part 15, Subpart C, Section 15.247 Operating in 902 - 928 MHz Band UltraTech's File No.: MCRS-010F15C247 This Test report is Issued under the Authority of Tri M. Luu, Professional Engineer, Vice President of Engineering UltraTech Group of Labs Date: January 9, 2006 Report Prepared by: Dan Huynh Issued Date: January 9, 2006 The results in this Test Report apply only to the sample(s) tested, and the sample tested is randomly selected. This report must not be used by the client to claim product endorsement by NVLAP or any agency of the US Government. Tested by: Mr. Hung Trinh, EMI/RFI Technician Test Dates: November 3 December 14, 2005 UltraTech 3000 Bristol Circle, Oakville, Ontario, Canada, L6H 6G4 Tel.: (905) 829-1570 Fax.: (905) 829-8050 Website: www.ultratech-labs.com, Email: vic@ultratech-labs.com, Email: tri@ultratech-labs.com 31040/SIT C-1376 46390-2049 200093-0 SL2-IN-E-1119R 2 00-034 FCC Part 15, Subpart C, Section 15.247 FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Contents i FCC ID: NS905P20 EXHIBIT 1. TABLE OF CONTENTS SUBMITTAL CHECK LIST ..........................................................................................................................................1 EXHIBIT 2. EXHIBIT 3. EXHIBIT 4. EXHIBIT 5. EXHIBIT 6. 4.1. 4.2. 2.1. 2.2. 2.3. 3.1. 3.2. 3.3. 3.4. 3.5. 3.6. INTRODUCTION............................................................................................................................................................2 SCOPE ............................................................................................................................................................................................2 RELATED SUBMITTAL(S)/GRANT(S).......................................................................................................................................2 NORMATIVE REFERENCES .......................................................................................................................................................2 PERFORMANCE ASSESSMENT .................................................................................................................................3 CLIENT INFORMATION..............................................................................................................................................................3 EQUIPMENT UNDER TEST (EUT) INFORMATION.................................................................................................................3 EUTS TECHNICAL SPECIFICATIONS......................................................................................................................................4 ASSOCIATED ANTENNA DESCRIPTIONS ...............................................................................................................................4 LIST OF EUTS PORTS.................................................................................................................................................................5 ANCILLARY EQUIPMENT..........................................................................................................................................................5 EUT OPERATING CONDITIONS AND CONFIGURATIONS DURING TESTS...................................................6 CLIMATE TEST CONDITIONS ...................................................................................................................................................6 OPERATIONAL TEST CONDITIONS & ARRANGEMENT FOR TESTS.................................................................................6 SUMMARY OF TEST RESULTS..................................................................................................................................7 LOCATION OF TESTS..................................................................................................................................................................7 5.1. 5.2. APPLICABILITY & SUMMARY OF EMC EMISSION TEST RESULTS..................................................................................7 5.3. MODIFICATIONS INCORPORATED IN THE EUT FOR COMPLIANCE PURPOSES............................................................7 MEASUREMENTS, EXAMINATIONS & TEST DATA FOR EMC EMISSIONS ..................................................8 6.1. TEST PROCEDURES ....................................................................................................................................................................8 6.2. MEASUREMENT UNCERTAINTIES ..........................................................................................................................................8 6.3. MEASUREMENT EQUIPMENT USED .......................................................................................................................................8 ESSENTIAL/PRIMARY FUNCTIONS AS DECLARED BY THE MANUACTURER...............................................................8 6.4. COMPLIANCE WITH FCC PART 15 GENERAL TECHNICAL REQUIREMENTS..............................................................9 6.5. AC POWER LINE CONDUCTED EMISSIONS [15.207(a)] ....................................................................................................11 6.6. 6.7. PROVISIONS FOR FREQUENCY HOPPING SYSTEMS [ 15.247(a)(1)]...............................................................................14 PEAK OUTPUT POWER & EQUIVALENT ISOTROPIC RADIATED POWER (EIRP) [ 15.247(b)] ...................................48 6.8. 6.9. RF EXPOSURE REQUIRMENTS [ 15.247(i), 1.1310 & 2.1091] ...........................................................................................50 6.10. TRANSMITTER BAND-EDGE & SPURIOUS CONDUCTED EMISSIONS [ 15.247(d)] .....................................................53 6.11. TRANSMITTER SPURIOUS RADIATED EMISSIONS AT 3 METERS [ 15.247(d), 15.209 & 15.205] .............................78 MEASUREMENT UNCERTAINTY..........................................................................................................................110 LINE CONDUCTED EMISSION MEASUREMENT UNCERTAINTY...................................................................................110 RADIATED EMISSION MEASUREMENT UNCERTAINTY.................................................................................................111 MEASUREMENT METHODS...................................................................................................................................112 8.1. GENERAL TEST CONDITIONS...............................................................................................................................................112 8.2. METHOD OF MEASUREMENTS - AC MAINS CONDUCTED EMISSIONS.......................................................................113 EQUIVALENT ISOTROPIC RADIATED POWER (EIRP)......................................................................................................114 8.3. 8.4. SPURIOUS EMISSIONS (CONDUCTED & RADIATED).......................................................................................................117 ALTERNATIVE TEST PROCEDURES....................................................................................................................................120 8.5. 7.1. 7.2. EXHIBIT 7. EXHIBIT 8. ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A EXHIBIT 1. SUBMITTAL CHECK LIST Annex No. Exhibit Type
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Test Report Description of Contents
Exhibit 1: Submittal check lists
Exhibit 2: Introduction
Exhibit 3: Performance Assessment
Exhibit 4: EUT Operation and Configuration during Tests
Exhibit 5: Summary of test Results
Exhibit 6: Measurement Data
Exhibit 7: Measurement Uncertainty
Exhibit 8: Measurement Methods
AC Conducted Emissions Setup Photos
Radiated Emissions Setup Photos External EUT Photos Internal EUT Photos
Letter from Ultratech for Certification Request
Letter from the Applicant to appoint Ultratech to act as an agent
Letter from the Applicant to request for Confidentiality Filing
Microhard Systems Inc. Modular Request
--
ID Label
Location of ID Label Block Diagram Schematics Test Setup Photos External EUT Photos Internal EUT Photos Cover Letters Attestation Statements ID Label/Location Info Block Diagrams Schematic Diagrams Parts List/Tune Up Info Parts List Operational Description Operation Description RF Exposure Info Users Manual MPE Evaluation, see section 6.9 in this Test Report for details. MHX920, 900 MHz Spread Spectrum OEM Transceiver Operating Manual 1 2 3 4 5 6 7 8 9 10 11 12 Page 1 FCC ID: NS905P20 Quality Check (OK) OK OK OK OK OK
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OK OK OK OK OK OK OK ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A EXHIBIT 2. INTRODUCTION Page 2 FCC ID: NS905P20 2.1. SCOPE Reference:
Title:
Purpose of Test:
FCC Part 15, Subpart C, Section 15.247 Code of Federal Regulations (CFR), Title 47 Telecommunication, Part 15 To gain FCC Equipment Authorization for Frequency Hopping Spread Spectrum Transceiver Operating in the Frequency Band 902 - 928 MHz. Test Procedures: Both conducted and radiated emissions measurements were conducted in accordance with American National Standards Institute ANSI C63.4 - American National Standard for Methods of Measurement of Radio-Noise Emissions from Low-Voltage Electrical and Electronic Equipment in the Range of 9 kHz to 40 GHz.
[ x ] Commercial, industrial or business environment
[ x ] Residential environment Environmental Classification:
2.2. RELATED SUBMITTAL(S)/GRANT(S) None. 2.3. NORMATIVE REFERENCES Publication 47 CFR Parts 0-
19 ANSI C63.4 Year 2005 2003 Title Code of Federal Regulations Telecommunication American National Standard for Methods of Measurement of Radio-Noise Emissions from Low-Voltage Electrical and Electronic Equipment in the Range of 9 kHz to 40 GHz Limits and Methods of Measurements of Radio Disturbance Characteristics of Information Technology Equipment Specification for Radio Disturbance and Immunity measuring apparatus and methods Filing and Measurement Guidelines for Frequency Hopping Spread Spectrum Systems Part 15 Unlicensed Modular Transmitter Approval Amendment to FCC Part 15 of the Commission's Rules Regarding to Spread Spectrum Devices CISPR 22 &
EN 55022 CISPR 16-1 FCC Public Notice DA 00-705 FCC Public Notice DA 00-1407 FCC ET Docket No. 99-231 2003 2003 2003 2000 2000 2002 ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 Page 3 FCC ID: NS905P20 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A EXHIBIT 3. PERFORMANCE ASSESSMENT 3.1. CLIENT INFORMATION APPLICANT Name:
Address:
Microhard Systems Inc.
#17, 2135 - 32nd Avenue N.E. Calgary, Alberta Canada T2E 6Z3 Contact Person: Mr. Hany Shenouda Phone #: 403 248-0028 Fax #: 403 248 2762 Email Address: shenouda@microhardcorp.com Name:
Address:
MANUFACTURER Microhard Systems Inc.
#17, 2135 - 32nd Avenue N.E. Calgary, Alberta Canada T2E 6Z3 Contact Person: Mr. Hany Shenouda Phone #: 403 248-0028 Fax #: 403 248-2762 Email Address: shenouda@microhardcorp.com 3.2. EQUIPMENT UNDER TEST (EUT) INFORMATION The following information (with the exception of the Date of Receipt) has been supplied by the applicant. Brand Name:
Product Name:
Model Name or Number:
Serial Number:
Type of Equipment:
Input Power Supply Type:
Primary User Functions of EUT: Spread Spectrum OEM Transceiver. Microhard Systems Inc. MHX920 - 900 MHz OEM Frequency Hopping Module MHX920A Test Sample Spread Spectrum Transmitter External Regulated DC Sources ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A 3.3. EUTS TECHNICAL SPECIFICATIONS Equipment Type:
TRANSMITTER
Mobile
Base Station (fixed use) Page 4 FCC ID: NS905P20 Intended Operating Environment: Commercial, industrial or business environment Power Supply Requirement:
RF Output Power Rating:
Operating Frequency Range:
RF Output Impedance:
Channel Spacing:
Duty Cycle:
Modulation Type:
Antenna Connector Type:
Residential environment 4 to 5.5VDC 0.001 to 1 W 902.4 927.6 MHz 50 Ohms 25kHz / 50kHz / 250kHz / 280kHz / 400 kHz Continuous FHSS The MHX920A Module is tested with MCX and Reverse Polarity SMA 3.4. ASSOCIATED ANTENNA DESCRIPTIONS There are five antenna families:
1. Quarter Wave Antenna Family 2. Rubber Ducky Antenna Family 3. Transit Antenna Family 4. Yagi Antenna Family 5. Omni Directional Antenna Family The highest gain antenna from each of the above antenna families were selected for testing to represents the worst-case. Refer to antennas list exhibit for detailed specifications. ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A 3.5. LIST OF EUTS PORTS Port Number 1 EUTs Port Description Number of RF IN/OUT Port Identical Ports Connector Type 1 2 DC Supply & I/O Port 1 Reversed SMA or MCX for external antenna Pin Header Page 5 FCC ID: NS905P20 Cable Type
(Shielded/Non-shielded) Shielded coaxial cable with unique coupling connectors No cable, direct connection 3.6. ANCILLARY EQUIPMENT The EUT was tested while connected to the following representative configuration of ancillary equipment necessary to exercise the ports during tests:
Ancillary Equipment # 1 Description:
Brand name:
Model Name or Number:
FCC Certification Serial Number:
Connected to EUTs Port:
Ancillary Equipment # 2 Description:
Brand name:
Connected to EUTs Port:
Ancillary Equipment # 3 Description:
Brand name:
Model Name or Number:
Connected to EUTs Port:
Laptop Toshiba 1605CDS/4.3 FCC DoC 1027387CU Test Jig of the EUT Test Jig Microhard Systems Inc. I/O Port AC Adaptor Magetek WDU12-1200 Test jig of the EUT ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A EXHIBIT 4. EUT OPERATING CONDITIONS AND CONFIGURATIONS Page 6 FCC ID: NS905P20 DURING TESTS 4.1. CLIMATE TEST CONDITIONS The climate conditions of the test environment are as follows:
Temperature:
Humidity:
Pressure:
Power Input Source:
21oC 51%
102 kPa 4 to 5.5VDC 4.2. OPERATIONAL TEST CONDITIONS & ARRANGEMENT FOR TESTS Operating Modes:
Each of lowest, middle and highest channel frequencies transmits continuously for emissions measurements.
The EUT operates in normal Frequency Hopping mode for occupancy duration, and frequency separation. Special Test Software & Hardware: Special software provided by the Applicant are installed to allow Transmitter Test Antenna:
the EUT to operates in hopping mode or at each channel frequency continuously. For example, the transmitter will be operated at each of lowest, middle and highest frequencies individually continuously during testing. The EUT is tested with the antenna fitted in a manner typical of normal intended use as a non-integral antenna equipment as described with the test results. Transmitter Test Signals Frequency Band(s):
Frequency(ies) Tested:
(Near lowest, near middle & near highest frequencies in the frequency range of operation.) RF Power Output:
(measured maximum output power at antenna terminals) Normal Test Modulation:
Modulating Signal Source:
902.4 927.6 MHz 902.4, 915 and 927.6 MHz 1 Watt (conducted) and 36 dBm EIRP maximum See test data Internal ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A EXHIBIT 5. SUMMARY OF TEST RESULTS Page 7 FCC ID: NS905P20 5.1. LOCATION OF TESTS All of the measurements described in this report were performed at Ultratech Group of Labs located in the city of Oakville, Province of Ontario, Canada. AC Power Line Conducted Emissions were performed in UltraTech's shielded room, 24'(L) by 16'(W) by 8'(H). Radiated Emissions were performed at the Ultratech's 3-10 TDK Semi-Anechoic Chamber situated in the Town of Oakville, province of Ontario. This test site been calibrated in accordance with ANSI C63.4, and found to be in compliance with the requirements of Sec. 2.948 of the FCC Rules. The descriptions and site measurement data of the Oakville 3-10 TDK Semi-Anechoic Chamber has been filed with FCC office (FCC File No.: 31040/SIT 1300B3) and Industry Canada office (Industry Canada File No.: IC2049-1). Last Date of Site Calibration: June. 20, 2005. 5.2. APPLICABILITY & SUMMARY OF EMC EMISSION TEST RESULTS FCC Section(s) Test Requirements 15.207(a) 15.247(a)(1) 15.247(b) 15.247(i), 1.1307, 1.1310, 2.1091 &
2.1093 15.247(d) 15.247(d), 15.209
& 15.205 AC Power Line Conducted Emissions Measurements Provisions for Frequency Hopping Systems Peak Output Power RF Exposure Limit Band-Edge and RF Conducted Spurious Emissions at the Transmitter Antenna Terminal Transmitter Spurious Radiated Emissions Compliance
(Yes/No) Yes Yes Yes Yes Yes Yes The digital circuit portion of the EUT has been tested and verified to comply with FCC Part 15, Subpart B, Class B Digital Devices and the associated Radio Receiver has also been tested and found to comply with FCC Part 15, Subpart B Radio Receivers. The engineering test report is available upon request. 5.3. MODIFICATIONS INCORPORATED IN THE EUT FOR COMPLIANCE PURPOSES None. ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A EXHIBIT 6. MEASUREMENTS, EXAMINATIONS & TEST DATA FOR EMC Page 8 FCC ID: NS905P20 EMISSIONS 6.1. TEST PROCEDURES This section contains test results only. Details of test methods and procedures can be found in Exhibit 8 of this report, ANSI C63.4 and FCC Public Notice @ DA 00-705 (March 30, 2000) Filing and Measurement Guidelines for Frequency Hopping Spread Spectrum Systems. 6.2. MEASUREMENT UNCERTAINTIES The measurement uncertainties stated were calculated in accordance with requirements of UKAS Document NIS 81 with a confidence level of 95%. Please refer to Exhibit 7 for Measurement Uncertainties. 6.3. MEASUREMENT EQUIPMENT USED The measurement equipment used complied with the requirements of the Standards referenced in the Methods &
Procedures ANSI C63.4 and CISPR 16-1. 6.4. ESSENTIAL/PRIMARY FUNCTIONS AS DECLARED BY THE MANUACTURER The essential function of the EUT is to correctly communicate data to and from radios over RF link. ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A 6.5. COMPLIANCE WITH FCC PART 15 GENERAL TECHNICAL REQUIREMENTS FCC Section FCC Rules 15.31 Manufacturers Clarification See Operational Description Page 9 FCC ID: NS905P20 15.203 15.204 15.247(a) 15.247(a) The hoping function must be disabled for tests, which should be performed with the EUT transmitting on the number of frequencies specified in this Section. The measurements made at the upper and lower ends of the band of operation should be made with the EUT tuned to the highest and lowest available channels. Described how the EUT complies with the requirement that either its antenna is permanently attached, or that it employs a unique antenna connector, for every antenna proposed for use with the EUT. The exception is in those cases where EUT must be professionally installed. In order to demonstrate that professional installation is required, the following 3 points must be addressed:
The application (or intended use) of the The installation requirements of the EUT The method by which the EUT will be EUT marketed type (e.g. Yagi, patch, grid, dish, etc), gain with reference to an isotropic radiator Provided the information for every antenna proposed for use with the EUT:
manufacturer and model number Description of how the EUT meets the definition of a frequency hopping spread spectrum, found in Section 2.1. Based on the technical description. Pseudo Frequency Hopping Sequence:
Describe how the hopping sequence is generated. Provide an example of the hopping sequence channels, in order to demonstrate that the sequence meets the requirements specified in the definition of a frequency hopping spread spectrum system, found in Section 2.1 The antenna employs unique antenna connectors: MCX and Reverse Polarity SMA See proposed antenna list. See Operational Description See Operational Description ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A FCC Section FCC Rules 15.247(a) Equal Hopping Frequency Use:
Describe how each individual EUT meets the requirement that each of its hopping channels is used equally on average (e.g. that each new transmission event begins on the next channel in the hopping sequence after final channel used in the previous transmission events). Describe how the EUT complies with the requirement that it be designed to be capable of operating as a true frequency hopping system Describe how the EUT complies with the requirement that it not have the ability to coordinated with other FHSS is an effort to avoid the simultaneous occupancy of individual hopping frequencies by multiple transmitters System Receiver Input Bandwidth:
Describe how the associated receiver(s) complies with the requirement that its input bandwidth
(either RF or IF) matches the bandwidth of the transmitted signal. System Receiver Hopping Capability:
Describe how the associated receiver(s) has the ability to shift frequencies in synchronization with the transmitted signals 15.247(g) 15.247(h) Public Notice DA 00-705 Public Notice DA 00-705 Page 10 FCC ID: NS905P20 Manufacturers Clarification See Operational Description See Operational Description See Operational Description See Operational Description See Operational Description ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A 6.6. AC POWER LINE CONDUCTED EMISSIONS [15.207(a)]
6.6.1. Limit The equipment shall meet the limits of the following table:
Page 11 FCC ID: NS905P20 Frequency of emission
(MHz) Class B Conducted Limits (dBV) Quasi-peak Average 66 to 56* ............. 56 ....................... 60 ..... 56 to 46*
0.150.5 ................. 46 0.55 ...................... 5-30 .. 50
*Decreases linearly with the logarithm of the frequency 6.6.2. Method of Measurements Refer to Exhibit 8, Section 8.2 of this test report & ANSI C63.4 6.6.3. Test Arrangement Measuring Bandwidth RBW = 9 kHz VBW > 9 kHz for QP VBW = 1 Hz for Average EUT Test Jig AC Adaptor L.I.S.N. Laptop 6.6.4. Test Equipment List Test Instruments Spectrum Analyzer/
EMI Receiver Transient Limiter L.I.S.N. Serial No. HP 8593EM 3412A00103 Manufacturer Model No. Hewlett Packard Hewlett Packard EMCO 11947A 3825/2 310701998 89071531 24'(L) x 16'(W) x 8'(H) RF Shielded Chamber Braden Shielding Frequency Range 9 kHz 26.5 GHz 9 kHz 200 MHz 10 dB attenuation 9 kHz 200 MHz 50 Ohms / 50 H ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A 6.6.5. Test Data Page 12 FCC ID: NS905P20 Plot 6.6.5.1 AC Power Line Conducted Emissions Line Voltage: 120VAC 60Hz Line Tested: L1 Transmitter and Receiver Combined mode Signal Freq (MHz) PK Amp QP Amp AV Amp QP L1 1 0/.1510/55 59.0/ 52.8 25.6 -13.1 2 0/.5130/25 52.7 45.6 26.5 -10/.4 3 23.60/0/650/ 48.3 46.1 39.6 -13.9 ACTV DET: PEAK MEAS DET: PEAK QP AVG MKR 23.67 MHz 41.93 dB V REF 80/.0/ dB V LOG 10/
dB/
ATN 10/ dB VA SB SC FC A CORR START 150/ kHz IF BW 9.0/ kHz AVG BW 30/ kHz STOP 30/.0/0/ MHz SWP 1.40/ sec ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 13 FCC ID: NS905P20 Plot 6.6.5.2 AC Power Line Conducted Emissions Line Voltage: 120VAC 60Hz Line Tested: L2 Transmitter and Receiver Combined mode Signal Freq (MHz) PK Amp QP Amp AV Amp QP L1 1 0/.1510/57 59.1 52.4 25.4 -13.6 2 0/.5130/27 50/.9 43.3 22.8 -12.7 3 23.531450/ 51.7 49.1 38.5 -10/.9 ACTV DET: PEAK MEAS DET: PEAK QP AVG MKR 23.67 MHz 48.22 dB V REF 80/.0/ dB V LOG 10/
dB/
ATN 10/ dB VA SB SC FS A CORR START 150/ kHz IF BW 9.0/ kHz AVG BW 30/ kHz STOP 30/.0/0/ MHz SWP 1.40/ sec ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 14 FCC ID: NS905P20 6.7. PROVISIONS FOR FREQUENCY HOPPING SYSTEMS [ 15.247(a)(1)]
6.7.1. Limit 15.247(a)(1): Frequency hopping systems shall have hopping channel carrier frequencies separated by a minimum of 25 kHz or the 20 dB bandwidth of the hopping channel, whichever is greater. Alternatively, frequency hopping systems operating in the 2400-2483.5 MHz band may have hopping channel carrier frequencies that are separated by 25 kHz or two-thirds of the 20 dB bandwidth of the hopping channel, whichever is greater, provided the systems operate with an output power no greater than 125 mW. The system shall hop to channel frequencies that are selected at the system hopping rate from a pseudorandomly ordered list of hopping frequencies. Each frequency must be used equally on the average by each transmitter. The system receivers shall have input bandwidths that match the hopping channel bandwidths of their corresponding transmitters and shall shift frequencies in synchronization with the transmitted signals. 15.247(a)(1)(i): For frequency hopping systems operating in the 902928 MHz band: if the 20 dB bandwidth of the hopping channel is less than 250 kHz, the system shall use at least 50 hopping frequencies and the average time of occupancy on any frequency shall not be greater than 0.4 seconds within a 20 second period; if the 20 dB bandwidth of the hopping channel is 250 kHz or greater, the system shall use at least 25 hopping frequencies and the average time of occupancy on any frequency shall not be greater than 0.4 seconds within a 10 second period. The maximum allowed 20 dB bandwidth of the hopping channel is 500 kHz. 6.7.2. Method of Measurements FCC Public Notice DA 00-705 Carrier Frequency Separation:
The hopping function of the EUT is enabled. Use the spectrum analyzer setting as follows:
Span = wide enough to capture the peaks of two adjacent channels
RBW = 1% of the span
VBW > RBW
Sweep = Auto
Detector = peak
Trace = max hold Number of hopping frequency:
The hopping function of the EUT is enabled. Use the spectrum analyzer setting as follows:
Span = the frequency band of operation
RBW = 1% of the span
VBW > RBW
Sweep = Auto
Detector = peak
Trace = max hold ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Time of Occupancy (Dwell Time):
The hopping function of the EUT is enabled. Use the spectrum analyzer setting as follows:
Span = 0 Hz centered on a hopping channel
RBW = 1 MHz
VBW > RBW
Sweep = as necessary to capture the entire dwell time per hopping channel
Detector = peak
Trace = max hold Page 15 FCC ID: NS905P20 If possible, use the marker-delta function to determine the dwell time. If this value varies with different modes of operation (e.g. date rate modulation format, etc.), repeat this test for each variation. The limit is specified in one of the subparagraphs of this Section. Submit this plot(s). An oscilloscope may be used instead of a spectrum analyzer. 20 dB Bandwidth:
Use the spectrum analyzer setting as follows:
Span = approximately 2 to 3 times the 20 dB bandwidth, centered on a hopping channel
RBW = 1% of the 20 dB bandwidth
VBW > RBW
Sweep = auto
Detector = peak
Trace = max hold
The transmitter shall be transmitting at its maximum data rate.
Allow the trace to stabilize.
Use the marker-to-peak function to set the marker to the peak of the emission.
Use the marker-delta function to measure 20 dB down on both sides of the emission.
The 20 dB BW is the delta reading in frequency between two markers. 6.7.3. Test Arrangement Toshiba Laptop AC Adaptor 120 VAC 60 Hz EUT Test Jig Attenuator Spectrum Analyzer ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A 6.7.4. Test Equipment List Test Instruments Spectrum Analyzer Attenuator Manufacturer Rhode & Schwarz FSEK20/B4/B21 Weinchel Corp. Model No. 46-20-34 6.7.5. Test Data Test Description Receiver Input Bandwidth and Hopping Capability 20 dB BW of the hopping channel FCC Specification The system receivers shall have input bandwidths that match the hopping channel bandwidths of their corresponding transmitters and shall shift frequencies in synchronization with the transmitted signals. 500 kHz maximum Channel Hopping Frequency Separation Minimum of 25 kHz or 20dB BW whichever is greater. Number hopping frequencies Average Time of Occupancy If the 20 dB bandwidth of the hopping channel is less than 250 kHz, the system shall use at least 50 hopping frequencies. If the 20 dB bandwidth of the hopping channel is 250 kHz or greater, the system shall use at least 25 hopping frequencies. If the 20 dB bandwidth of the hopping channel is less than 250 kHz, the average time of occupancy on any frequency shall not be greater than 0.4 seconds within a 20 second period. If the 20 dB bandwidth of the hopping channel is 250 kHz or greater, the average time of occupancy on any frequency shall not be greater than 0.4 seconds within a 10 second period Note 1: See operational description exhibit for details. Note 2: See the following plots for details. Page 16 FCC ID: NS905P20 Serial No. 834157/005 BM0653 Frequency Range 9kHz - 40GHz DC -18GHz Measured Values
--
Comments See Note 1 At very low data rate: 9.46 kHz At middle data rate: 247.70 kHz At high data rate: 378.76 kHz At very low data rate: 25.15 kHz At middle data rate: 280.56 kHz At high data rate: 400.80 kHz At least 50 hopping frequencies See Note 2 See Note 2 See Note 3 See Note 2 At very low data rate: 379 ms within a 20 second At middle data rate: 92 ms within a 20 second At high data rate: 14 ms within a 10 second ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Note 3: Below is the list of pseudorandomly generated frequency in kHz for each rate. These are only a Page 17 FCC ID: NS905P20 representative sample and the frequencies are generated may be different depend on the pseudorandom seed. Very Low Rate (25 kHz channel spacing):
const unsigned int fcc_patternSS[50] = {
902400, 904425, 904450, 904475, 904500, 904525, 904550, 904575, 904600, 904625, 904650, 904675, 904700, 904725, 904750, 904775, 904800, 904825, 904850, 904875, 904900, 904925, 904950, 904975, 905000, 920875, 920900, 920925, 920950, 920975, 921000, 921025, 921050, 921075, 921100, 921125, 921150, 921175, 921200, 921225, 921250, 921275, 921300, 921325, 921350, 921375, 921400, 921425, 915000, 927600};
Low Rate (50kHz channel spacing):
const unsigned int fcc_pattern0[50] = {
902400, 902450, 902500, 902550, 902600, 902650, 902700, 902750, 902800, 902850, 902900, 902950, 903000, 903050, 903100, 903150, 903200, 903250, 903300, 903350, 903400, 903450, 903500, 903550, 903600, 903650, 903700, 926550, 926600, 926650, 926700, 926750, 926800, 926850, 926900, 926950, 927000, 927050, 927100, 927150, 927200, 927250, 927300, 927350, 927400, 927450, 927500, 927550, 927600, 915000};
Middle Rate US (280 kHz channel spacing):
const unsigned int fcc_pattern1[50] = {
902400, 902680, 902960, 903240, 903520, 903800, 904080, 904360, 904640, 904920, 905200, 905480, 905760, 906040, 906320, 906600, 906880, 907160, 907440, 907720, 908000, 918640, 918920, 919200, 919480, 919760, 920040, 920320, 920600, 920880, 921160, 921440, 921720, 922000, 922280, 922560, 922840, 923120, 923400, 923680, 923960, 924240, 924520, 924800, 914720, 915000, 915280, 915560, 915840, 927600};
Middle Rate Australia (250 kHz channel spacing):
const unsigned int fcc_pattern2[50] = {
915250, 915500, 915750, 916000, 916250, 916500, 916750, 917000, 917250, 917500, 917750, 918000, 918250, 918500, 918750, 919000, 919250, 919500, 919750, 920000, 920250, 920500, 920750, 921000, 921250, 921500, 921750, 922000, 922250, 922500, 922750, 923000, 923250, 923500, 923750, 924000, 924250, 924500, 924750, 925000, 925250, 925500, 925750, 926000, 926250, 926500, 926750, 927000, 927250, 927500};
High (400 kHz channel spacing):
const unsigned int fcc_pattern3[50] = {
902400, 902800, 903200, 903600, 904000, 904400, 904800, 905200, 905600, 906000, 906400, 906800, 907200, 907600, 908000, 908400, 908800, 909200, 909600, 910000, 910400, 910800, 911200, 911600, 912000, 912400, 912800, 913200, 913600, 914000, 914400, 914800, 915200, 915600, 916000, 916400, 916800, 917200, 917600, 918000, 918400, 918800, 919200, 919600, 920000, 920400, 920800, 921200, 921600, 927600};
ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 18 FCC ID: NS905P20 Plot 6.7.5.1:
20 dB Bandwidth Test Frequency: 902.4 MHz (at very low data rate) ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 19 FCC ID: NS905P20 Plot 6.7.5.2:
20 dB Bandwidth Test Frequency: 915 MHz (at very low data rate) ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 20 FCC ID: NS905P20 Plot 6.7.5.3:
20 dB Bandwidth Test Frequency: 927.6 MHz (at very low data rate) ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 21 FCC ID: NS905P20 Plot 6.7.5.4:
20 dB Bandwidth Test Frequency: 902.4 MHz (at middle data rate) ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 22 FCC ID: NS905P20 Plot 6.7.5.5:
20 dB Bandwidth Test Frequency: 915 MHz (at middle data rate) ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 23 FCC ID: NS905P20 Plot 6.7.5.6:
20 dB Bandwidth Test Frequency: 927.6 MHz (at middle data rate) ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 24 FCC ID: NS905P20 Plot 6.7.5.7:
20 dB Bandwidth Test Frequency: 902.4 MHz (at high data rate) ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 25 FCC ID: NS905P20 Plot 6.7.5.8:
20 dB Bandwidth Test Frequency: 915 MHz (at high data rate) ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 26 FCC ID: NS905P20 Plot 6.7.5.9:
20 dB Bandwidth Test Frequency: 927.6 MHz (at high data rate) ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 27 FCC ID: NS905P20 Carrier Frequency Separation (at very low data rate) Plot 6.7.5.10:
ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 28 FCC ID: NS905P20 Carrier Frequency Separation (at middle data rate) Plot 6.7.5.11:
ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 29 FCC ID: NS905P20 Carrier Frequency Separation (at high data rate) Plot 6.7.5.12:
ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 30 FCC ID: NS905P20 Plot 6.7.5.13:
Time of Occupancy Test Frequency: 902.4 MHz (at very low data rate) Dwell Time @ 902.4 MHz = 126.252505 ms ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 31 FCC ID: NS905P20 Plot 6.7.5.14:
Time of Occupancy Test Frequency: 902.4 MHz (at very low data rate) Average time of occupancy in 20 s = (Dwell Time @ 902.4 MHz) x (number of hops in 20 s)
= 126.252505 ms x 3
= 379 ms ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 32 FCC ID: NS905P20 Plot 6.7.5.15:
Time of Occupancy Test Frequency: 915 MHz (at very low data rate) Dwell Time @ 915 MHz = 126.252505 ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 33 FCC ID: NS905P20 Plot 6.7.5.16:
Time of Occupancy Test Frequency: 915 MHz (at very low data rate) Average time of occupancy in 20 s = (Dwell Time @ 915 MHz) x (number of hops in 20 s)
= 126.252505 ms x 3
= 379 ms ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 34 FCC ID: NS905P20 Plot 6.7.5.17:
Time of Occupancy Test Frequency: 927.6 MHz (at very low data rate) Dwell Time @ 927.6 MHz = 126.252505 ms ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 35 FCC ID: NS905P20 Plot 6.7.5.18:
Time of Occupancy Test Frequency: 927.6 MHz Average time of occupancy in 20 s = (Dwell Time @ 927.6 MHz) x (number of hops in 20 s)
= 126.252505 ms x 3
= 379 ms ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 36 FCC ID: NS905P20 Plot 6.7.5.19:
Time of Occupancy Test Frequency: 902.4 MHz (at middle data rate) Dwell Time @ 902.4 MHz = 10.2204441 ms ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 37 FCC ID: NS905P20 Plot 6.7.5.20:
Time of Occupancy Test Frequency: 902.4 MHz (at middle data rate) Average time of occupancy in 20 s = (Dwell Time @ 902.4 MHz) x (number of hops in 20 s)
= 10.2204441 ms x 4
= 41 ms ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 38 FCC ID: NS905P20 Plot 6.7.5.21:
Time of Occupancy Test Frequency: 915 MHz (at middle data rate) Dwell Time @ 915 MHz = 10.220441 ms ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 39 FCC ID: NS905P20 Plot 6.7.5.22:
Time of Occupancy Test Frequency: 915 MHz (at middle data rate) Average time of occupancy in 20 s = (Dwell Time @ 915 MHz) x (number of hops in 20 s)
= 10.220441 ms x 9
= 92 ms ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 40 FCC ID: NS905P20 Plot 6.7.5.23:
Time of Occupancy Test Frequency: 927.6 MHz (at middle data rate) Dwell Time @ 927.6 MHz = 10.220441 ms ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 41 FCC ID: NS905P20 Plot 6.7.5.24:
Time of Occupancy Test Frequency: 927.6 MHz (at middle data rate) Average time of occupancy in 20 s = (Dwell Time @ 927.6 MHz) x (number of hops in 20 s)
= 10.220441 ms x 3
= 31 ms ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 42 FCC ID: NS905P20 Plot 6.7.5.25:
Time of Occupancy Test Frequency: 902.4 MHz (at high data rate) Dwell Time @ 902.4 MHz = 6.813627 ms ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 43 FCC ID: NS905P20 Plot 6.7.5.26:
Time of Occupancy Test Frequency: 902.4 MHz Average time of occupancy in 10 s = (Dwell Time @ 902.4 MHz) x (number of hops in 10 s)
= 6.813627 ms x 2
= 14 ms ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 44 FCC ID: NS905P20 Plot 6.7.5.27:
Time of Occupancy Test Frequency: 915 MHz (at high data rate) Dwell Time @ 915 MHz = 6.813627 ms ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 45 FCC ID: NS905P20 Plot 6.7.5.28:
Time of Occupancy Test Frequency: 915 MHz (at high data rate) Average time of occupancy in 10 s = (Dwell Time @ 915 MHz) x (number of hops in 10 s)
= 6.813627 ms x 2
= 14 ms ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 46 FCC ID: NS905P20 Plot 6.7.5.29:
Time of Occupancy Test Frequency: 927.6 MHz (at high data rate) Dwell Time @ 927.6 MHz = 6.813627 ms ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 47 FCC ID: NS905P20 Plot 6.7.5.30:
Time of Occupancy Test Frequency: 927.6 MHz (at high data rate) Average time of occupancy in 10 s = (Dwell Time @ 927.6 MHz) x (number of hops in 10 s)
= 6.813627 ms x 1
= 7 ms ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A 6.8. PEAK OUTPUT POWER & EQUIVALENT ISOTROPIC RADIATED POWER (EIRP) [
Page 48 FCC ID: NS905P20 15.247(b)]
6.8.1. Limit 15.247(b)(2): For frequency hopping systems operating in the 902-928 MHz band: 1 watt for systems employing at least 50 hopping channels; and, 0.25 watts for systems employing less than 50 hopping channels, but at least 25 hopping channels. 15.247(b)(4): The conducted output power limit specified in paragraph (b) of this section is based on the use of antennas with directional gains that do not exceed 6 dBi. Except as shown in paragraph (c) of this section, if transmitting antennas of directional gain greater than 6 dBi are used, the conducted output power from the intentional radiator shall be reduced below the stated values in paragraphs
(b)(1), (b)(2), and (b)(3) of this section, as appropriate, by the amount in dB that the directional gain of the antenna exceeds 6 dBi. 6.8.2. Method of Measurements Refer to Exhibit 8, Section 8.3, FCC Public Notice DA 00-705 and ANSI C63.4. 6.8.3. Test Arrangement Toshiba Laptop AC Adaptor 120 VAC 60 Hz EUT Test Jig 6.8.4. Test Equipment List Test Instruments Spectrum Analyzer Attenuator Model No. Manufacturer Rhode & Schwarz FSEK20/B4/B21 Weinschel Corp 46-20-34 Attenuator Spectrum Analyzer Serial No. 834157/005 BM0653 Frequency Range 9kHz - 40GHz DC -18GHz ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A 6.8.5. Test Data Page 49 FCC ID: NS905P20 Peak Output Power Limit
(dBm) EIRP Limit
(dBm) Transmitter Channel Frequency
(MHz) Lowest Middle Highest Lowest Middle Highest 902.4 915.0 927.6 902.4 915.0 927.6 Peak Output Power at Antenna Terminal
(dBm) EIRP
(dBm) Power Setting: 30 dBm (1W) Calculated 30.13 30.13 30.14 See Notes below See Notes below See Notes below Power Setting: 0 dBm (1 mW)
-0.95
-3.68
-2.24 See Notes below See Notes below See Notes below 30.0 30.0 30.0 30.0 30.0 30.0 36.0 36.0 36.0 36.0 36.0 36.0 Notes:
1. The EIRP shall be calculated based on the transmitter antenna gain (GdBi), cable loss (CLdB) and peak output power at antenna terminal (PdBm). Calculated EIRP = PdBm + GdBi - CLdB 2. EIRP shall not exceed 36 dBm limit (Power Setting = 36 dBm - GdBi + CLdB). See page 2 the Operating Manual for instruction of power setting. ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A 6.9. RF EXPOSURE REQUIRMENTS [ 15.247(i), 1.1310 & 2.1091]
6.9.1. Limit
15.247(i): Systems operating under provisions of this section shall be operated in a manner that ensures Page 50 FCC ID: NS905P20 that the public is not exposed to radio frequency energy levels in excess of the Commissions guidelines. See 1.1307(b)(1).
1.1310:- The criteria listed in the following table shall be used to evaluate the environmental impact of human exposure to radio-frequency (RF) radiation as specified in 1.1307(b). 6.9.2. Method of Measurements Refer to Sections 1.1310, 2.1091 and Public Notice DA 00-705 (March 30, 2000) Spread spectrum transmitters operating under section 15.247 are categorically from routine environmental evaluation to demonstrating RF exposure compliance with respect to MPE and/or SAR limits. These devices are not exempted from compliance (As indicated in Section 15.247(b)(4), these transmitters are required to operate in a manner that ensures that exposure to public users and nearby persons) does not exceed the Commissions RF exposure guidelines (see Section 1.1307 and 2.1093). Unless a device operates at substantially low power levels, with a low gain antenna(s), supporting information is generally needed to establish the various potential operating configurations and exposure conditions of a transmitter and its antenna(s) in order to determine compliance with the RF exposure guidelines. In order to demonstrate compliance with MPE requirements (see Section 2.1091), the following information is typically needed:
(1) Calculation that estimates the minimum separation distance (20 cm or more) between an antenna and persons required to satisfy power density limits defined for free space.
(2) Antenna installation and device operating instructions for installers (professional/unskilled users), and the parties responsible for ensuring compliance with the RF exposure requirement
(3) Any caution statements and/or warning labels that are necessary in order to comply with the exposure limits
(4) Any other RF exposure related issues that may affect MPE compliance ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 Page 51 FCC ID: NS905P20 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Calculation Method of RF Safety Distance:
S = PG/4r2 =EIRP/4r2 P: power input to the antenna in mW EIRP: Equivalent (effective) isotropic radiated power S: power density mW/cm2 G: numeric gain of antenna relative to isotropic radiator r: distance to centre of radiation in cm Where:
r = EIRP/4S For portable transmitters (see Section 2.1093), or devices designed to operate next to a persons body, compliance is determined with respect to the SAR limit (define in the body tissues) for near-field exposure conditions. If the maximum average output power, operating condition configurations and exposure conditions are comparable to those of existing cellular and PCS phones, SAR evaluation may be required in order to determine if such a device complies with SAR limit. When SAR evaluation data is not available, and the additional supporting information cannot assure compliance, the Commission may request that an SAR evaluation be performed, as provided for in Section 1.1307(d) ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A 6.9.3. Test Data Page 52 FCC ID: NS905P20 Evaluation of RF Exposure Compliance Requirements RF Exposure Requirements Compliance with FCC Rules Minimum calculated separation distance between antenna and persons required: *23 cm Manufacturer instruction for separation distance between antenna and persons required: 23 cm. Antenna installation and device operating instructions for installers (professional/unskilled users), and the parties responsible for ensuring compliance with the RF exposure requirement Antenna installation and device operating instructions shall be provided to installers to maintain and ensure compliance with RF exposure requirements. Caution statements and/or warning labels that are necessary in order to comply with the exposure limits Any other RF exposure related issues that may affect MPE compliance Refer to Users Manual for RF Exposure Information. None.
*The minimum separation distance between the antenna and bodies of users are calculated using the following formula:
RF EXPOSURE DISTANCE LIMITS: r = (PG/4S)1/2 = (EIRP/4S)1/2 S = 902.4/1500 mW/cm2 EIRP = 36.0 dBm = 1036/10 mW max. (Worst Case) r = (EIRP/4S)1/2 = (1036/10/4(902.4/1500)) 1/2 = 23 cm ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 Page 53 FCC ID: NS905P20 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A 6.10. TRANSMITTER BAND-EDGE & SPURIOUS CONDUCTED EMISSIONS [ 15.247(d)]
6.10.1. Limit 15.247 (d): In any 100 kHz bandwidth outside the frequency band in which the spread spectrum or digitally modulated intentional radiator is operating, the radio frequency power that is produced by the intentional radiator shall be at least 20 dB below that in the 100 kHz bandwidth within the band that contains the highest level of the desired power, based on either an RF conducted or a radiated measurement, provided the transmitter demonstrates compliance with the peak conducted power limits. If the transmitter complies with the conducted power limits based on the use of RMS averaging over a time interval, as permitted under paragraph (b)(3) of this section, the attenuation required under this paragraph shall be 30 dB instead of 20 dB. 6.10.2. Method of Measurements Refer to Exhibit 8, Section 8.4 of this test report. 6.10.3. Test Arrangement Spectrum Analyzer Filter by-pass Attenuator High Pass Filter Toshiba Laptop AC Adaptor 120 VAC 60 Hz EUT Test Jig 6.10.4. Test Equipment List Test Instruments Manufacturer Spectrum Analyzer Rhode & Schwarz FSEK20/B4/B21 High Pass Filter Attenuator K & L Weinschel Corp. Model No. 11SH10-15001T8000 2 46-20-34 BM0653 Serial No. 834157/005 Frequency Range 9kHz - 40GHz 1 - 18 GHz DC -18GHz ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A 6.10.5. Test Data Page 54 FCC ID: NS905P20 6.10.5.1. Band-Edge RF Conducted Emissions See the following test data plots for measurement results:
Plot 6.10.5.1.1:
Band-Edge RF Conducted Emissions Low End of Frequency Band Single Frequency Mode (at very low data rate) ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 55 FCC ID: NS905P20 Plot 6.10.5.1.2:
Band-Edge RF Conducted Emissions Low End of Frequency Band Pseudorandom Channel Hopping Mode (at very low data rate) ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 56 FCC ID: NS905P20 Plot 6.10.5.1.3:
Band-Edge RF Conducted Emissions High End of Frequency Band Single Frequency Mode (at very low data rate) ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 57 FCC ID: NS905P20 Plot 6.10.5.1.4:
Band-Edge RF Conducted Emissions High End of Frequency Band Pseudorandom Channel Hopping Mode (at very low data rate) ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 58 FCC ID: NS905P20 Plot 6.10.5.1.5:
Band-Edge RF Conducted Emissions Low End of Frequency Band Single Frequency Mode (at middle data rate) ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 59 FCC ID: NS905P20 Plot 6.10.5.1.6:
Band-Edge RF Conducted Emissions Low End of Frequency Band Pseudorandom Channel Hopping Mode (at middle data rate) ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 60 FCC ID: NS905P20 Plot 6.10.5.1.7:
Band-Edge RF Conducted Emissions High End of Frequency Band Single Frequency Mode (at middle data rate) ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 61 FCC ID: NS905P20 Plot 6.10.5.1.8:
Band-Edge RF Conducted Emissions High End of Frequency Band Pseudorandom Channel Hopping Mode (at middle data rate) ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 62 FCC ID: NS905P20 Plot 6.10.5.1.9:
Band-Edge RF Conducted Emissions Low End of Frequency Band Single Frequency Mode (at high data rate) ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 63 FCC ID: NS905P20 Plot 6.10.5.1.10:
Band-Edge RF Conducted Emissions Low End of Frequency Band Pseudorandom Channel Hopping Mode (at high data rate) ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 64 FCC ID: NS905P20 Plot 6.10.5.1.11:
Band-Edge RF Conducted Emissions High End of Frequency Band Single Frequency Mode (at high data rate) ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 65 FCC ID: NS905P20 Plot 6.10.5.1.12:
Band-Edge RF Conducted Emissions High End of Frequency Band Pseudorandom Channel Hopping Mode (at high data rate) ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A 6.10.5.2. Spurious RF Conducted Emissions The emissions were scanned from 10 MHz to 10 GHz; see the following test data plots for measurement results. Page 66 FCC ID: NS905P20 Plot 6.10.5.2.1:
Spurious RF Conducted Emissions Transmitter Frequency: 902.4 MHz at 1W Output Power Setting Detector at Max Hold with EUT Operating at Very Low, Middle and High Data Rates
. ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 67 FCC ID: NS905P20 Plot 6.10.5.2.2:
Spurious RF Conducted Emissions Transmitter Frequency: 902.4 MHz at 1W Output Power Setting Detector at Max Hold with EUT Operating at Very Low, Middle and High Data Rates ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 68 FCC ID: NS905P20 Plot 6.10.5.2.3:
Spurious RF Conducted Emissions Transmitter Frequency: 902.4 MHz at 1mW Output Power Setting Detector at Max Hold with EUT Operating at Very Low, Middle and High Data Rates ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 69 FCC ID: NS905P20 Plot 6.10.5.2.4:
Spurious RF Conducted Emissions Transmitter Frequency: 902.4 MHz at 1mW Output Power Setting Detector at Max Hold with EUT Operating at Very Low, Middle and High Data Rates ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 70 FCC ID: NS905P20 Plot 6.10.5.2.5:
Spurious RF Conducted Emissions Transmitter Frequency: 915 MHz at 1W Output Power Setting Detector at Max Hold with EUT Operating at Very Low, Middle and High Data Rates ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 71 FCC ID: NS905P20 Plot 6.10.5.2.6:
Spurious RF Conducted Emissions Transmitter Frequency: 915 MHz at 1W Output Power Setting Detector at Max Hold with EUT Operating at Very Low, Middle and High Data Rates ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 72 FCC ID: NS905P20 Plot 6.10.5.2.7:
Spurious RF Conducted Emissions Transmitter Frequency: 915 MHz at 1mW Output Power Setting Detector at Max Hold with EUT Operating at Very Low, Middle and High Data Rates ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 73 FCC ID: NS905P20 Plot 6.10.5.2.8:
Spurious RF Conducted Emissions Transmitter Frequency: 915 MHz at 1mW Output Power Setting Detector at Max Hold with EUT Operating at Very Low, Middle and High Data Rates ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 74 FCC ID: NS905P20 Plot 6.10.5.2.9:
Spurious RF Conducted Emissions Transmitter Frequency: 927.6 MHz at 1W Output Power Setting Detector at Max Hold with EUT Operating at Very Low, Middle and High Data Rates ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 75 FCC ID: NS905P20 Plot 6.10.5.2.10:
Spurious RF Conducted Emissions Transmitter Frequency: 927.6 MHz at 1W Output Power Setting Detector at Max Hold with EUT Operating at Very Low, Middle and High Data Rates ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 76 FCC ID: NS905P20 Plot 6.10.5.2.11:
Spurious RF Conducted Emissions Transmitter Frequency: 927.6 MHz at 1mW Output Power Setting Detector at Max Hold with EUT Operating at Very Low, Middle and High Data Rates ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 77 FCC ID: NS905P20 Plot 6.10.5.2.12:
Spurious RF Conducted Emissions Transmitter Frequency: 927.6 MHz at 1mW Output Power Setting Detector at Max Hold with EUT Operating at Very Low, Middle and High Data Rates ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A 6.11. TRANSMITTER SPURIOUS RADIATED EMISSIONS AT 3 METERS [ 15.247(d), Page 78 FCC ID: NS905P20 15.209 & 15.205]
6.11.1. Limit 15.247 (d): In any 100 kHz bandwidth outside the frequency band in which the spread spectrum or digitally modulated intentional radiator is operating, the radio frequency power that is produced by the intentional radiator shall be at least 20 dB below that in the 100 kHz bandwidth within the band that contains the highest level of the desired power, based on either an RF conducted or a radiated measurement, provided the transmitter demonstrates compliance with the peak conducted power limits. If the transmitter complies with the conducted power limits based on the use of RMS averaging over a time interval, as permitted under paragraph (b)(3) of this section, the attenuation required under this paragraph shall be 30 dB instead of 20 dB. Attenuation below the general limits specified in Section 15.209(a) is not required. In addition, radiated emissions which fall in the restricted bands, as defined in Section 15.205(a), must also comply with the radiated emission limits specified in Section 15.209(a) (see Section 15.205(c)). Section 15.205(a) - Restricted Bands of Operation
-- Field Strength Limits within Restricted Frequency Bands --
Section 15.209(a) Measurement Distance
(meters) Frequency (MHz) Field Strength
(microvolts/meter) 0.009 - 0.490 0.490 - 1.705 1.705 - 30.0 30 88 88 216 216 960 Above 960 2,400 / F (kHz) 24,000 / F (kHz) 30 100 150 200 500 300 30 30 3 3 3 3 ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A 6.11.2. Method of Measurements Refer to Exhibit 8, Section 8.4 of this test report and ANSI 63.4 for detailed radiated emissions measurement procedures. The following measurement procedures were also applied:
Page 79 FCC ID: NS905P20 Applies to harmonics/spurious that fall in the restricted bands listed in Section 15.205. the maximum permitted average field strength is listed in Section 15.209. A Pre-Amp and highpass filter are used for this measurement. For measurement below 1 GHz, set RBW = 100 KHz, VBW > 100 KHz, SWEEP=AUTO. For measurement above 1 GHz, set RBW = 1 MHz, VBW = 1 MHz (Peak) & VBW = 10 Hz (Average), SWEEP=AUTO. If the emission is pulsed, modified the unit for continuous operation, then use the settings above for measurements, then correct the reading by subtracting the peak-average correction factor derived from the appropriate duty cycle calculation. See Section 15.35(b) and (c). 6.11.3. Test Arrangement Toshiba Laptop AC Adaptor 120 VAC 60 Hz EUT Test Jig 6.11.4. Test Equipment List Test Instruments Manufacturer Spectrum Analyzer Rhode & Schwarz FSEK20/B4/B21 Microwave Amplifier Biconilog Antenna Horn Antenna EMCO EMCO Hewlett Packard 3143 3155 Model No. 8449B Serial No. 834157/005 3008A00769 Frequency Range 9kHz 40GHz 1 GHz to 26.5 GHz 1029 9701-5061 20 MHz to 2 GHz 1 GHz 18 GHz ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A 6.11.5. Test Data The following test results are the worst-case measurements. Page 80 FCC ID: NS905P20 6.11.5.1. EUT with Quarter Wave Antenna, 1.5 dBi Gain Fundamental Frequency:
Power Setting:
Frequency Test Range:
902.4 MHz 30 dBm 10 MHz 10 GHz Frequency
(MHz) 902.4 902.4 2707.2 2707.2 3609.6 3609.6 4512.0 4512.0 5414.4 5414.4 RF Peak Level
(dBV/m) 121.75 117.53 50.29 45.56 49.38 49.37 51.27 51.05 52.61 53.09 RF Avg Level
(dBV/m) Antenna Plane
(H/V) Limit 15.209
(dBV/m) Limit 15.247
(dBV/m)
--
--
49.56 35.57 36.15 35.75 45.02 44.30 44.43 46.77 V H V H V H V H V H
--
--
54.0 54.0 54.0 54.0 54.0 54.0 54.0 54.0
--
--
101.8 101.8 101.8 101.8 101.8 101.8 101.8 101.8 Margin
(dB)
--
--
-4.4
-18.4
-17.9
-18.3
-9.0
-9.7
-9.6
-7.2 Pass/
Fail
--
--
Pass*
Pass*
Pass*
Pass*
Pass*
Pass*
Pass*
Pass*
All other spurious emissions and harmonics are more than 20 dB below the applicable limit. See the following test data plots for band-edge emissions.
* Emission within the restricted frequency bands. ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 81 FCC ID: NS905P20 Plot 6.11.5.1.1:
Band-Edge RF Radiated Emissions @ 3 meters Low End of Frequency Band (at high data rate) Test Configuration 1: EUT with Wave Antenna (1.5 dBi Gain) Rx Antenna Orientation: Vertical ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 82 FCC ID: NS905P20 Plot 6.11.5.1.2:
Band-Edge RF Radiated Emissions @ 3 meters Low End of Frequency Band (at high data rate) Test Configuration 1: EUT with Wave Antenna (1.5 dBi Gain) Rx Antenna Orientation: Horizontal ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Fundamental Frequency:
Power Setting:
Frequency Test Range:
915.0 MHz 30 dBm 10 MHz 10 GHz Page 83 FCC ID: NS905P20 Frequency
(MHz) 915.0 915.0 2745.0 2745.0 3660.0 3660.0 4575.0 4575.0 RF Peak Level
(dBV/m) 121.16 117.47 54.93 51.39 50.27 50.81 52.02 52.40 RF Avg Level
(dBV/m) Antenna Plane
(H/V) Limit 15.209
(dBV/m) Limit 15.247
(dBV/m)
--
--
52.40 46.06 40.99 41.02 46.41 45.10 V H V H V H V H
--
--
54.0 54.0 54.0 54.0 54.0 54.0
--
--
101.2 101.2 101.2 101.2 101.2 101.2 Margin
(dB)
--
--
-1.6
-7.9
-13.0
-13.0
-7.6
-8.9 All other spurious emissions and harmonics are more than 20 dB below the applicable limit.
* Emission within the restricted frequency bands. Fundamental Frequency:
Power Setting:
Frequency Test Range:
927.6 MHz 30 dBm 10 MHz 10 GHz Frequency
(MHz) 927.6 927.6 2782.8 2782.8 3710.4 3710.4 4638.0 4638.0 RF Peak Level
(dBV/m) 120.68 117.32 55.83 52.28 49.27 49.59 51.46 48.27 RF Avg Level
(dBV/m) Antenna Plane
(H/V) Limit 15.209
(dBV/m) Limit 15.247
(dBV/m)
--
--
52.94 49.19 39.52 39.12 44.19 40.46 V H V H V H V H
--
--
54.0 54.0 54.0 54.0 54.0 54.0
--
--
100.7 100.7 100.7 100.7 100.7 100.7 Margin
(dB)
--
--
-1.1
-4.8
-14.5
-14.9
-9.8
-13.5 Pass/
Fail
--
--
Pass*
Pass*
Pass*
Pass*
Pass*
Pass*
Pass/
Fail
--
--
Pass*
Pass*
Pass*
Pass*
Pass*
Pass*
All other spurious emissions and harmonics are more than 20 dB below the applicable limit. See the following test data plots for band-edge emissions.
* Emission within the restricted frequency bands. ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 84 FCC ID: NS905P20 Plot 6.11.5.1.3:
Band-Edge RF Radiated Emissions @ 3 meters Upper End of Frequency Band (at high data rate) Test Configuration 1: EUT with Wave Antenna (1.5 dBi Gain) Rx Antenna Orientation: Vertical ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 85 FCC ID: NS905P20 Plot 6.11.5.1.4:
Band-Edge RF Radiated Emissions @ 3 meters Upper End of Frequency Band (at high data rate) Test Configuration 1: EUT with Wave Antenna (1.5 dBi Gain) Rx Antenna Orientation: Horizontal ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A 6.11.5.2. EUT with Rubber Ducky Antenna, 2 dBi Gain Fundamental Frequency:
Power Setting:
Frequency Test Range:
902.4 MHz 30 dBm 10 MHz 10 GHz Page 86 FCC ID: NS905P20 Frequency
(MHz) 902.4 902.4 2707.2 3609.6 3609.6 4512.0 4512.0 5414.4 5414.4 RF Peak Level
(dBV/m) 129.23 128.34 45.30 50.39 52.25 49.62 51.14 54.62 55.19 RF Avg Level
(dBV/m) Antenna Plane
(H/V) Limit 15.209
(dBV/m) Limit 15.247
(dBV/m)
--
--
34.47 41.70 46.16 41.82 42.61 50.71 51.88 V H H V H V H V H
--
--
54.0 54.0 54.0 54.0 54.0 54.0 54.0
--
--
109.2 109.2 109.2 109.2 109.2 109.2 109.2 Margin
(dB)
--
--
-19.5
-12.3
-7.8
-12.2
-11.4
-3.3
-2.1 Pass/
Fail
--
--
Pass*
Pass*
Pass*
Pass*
Pass*
Pass*
Pass*
All other spurious emissions and harmonics are more than 20 dB below the applicable limit. See the following test data plots for band-edge emissions.
* Emission within the restricted frequency bands. ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 87 FCC ID: NS905P20 Plot 6.11.5.2.1:
Band-Edge RF Radiated Emissions @ 3 meters Low End of Frequency Band (at high data rate) Test Configuration 2: EUT with Rubber Duck Antenna (2 dBi Gain) Rx Antenna Orientation: Vertical ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 88 FCC ID: NS905P20 Plot 6.11.5.2.2:
Band-Edge RF Radiated Emissions @ 3 meters Low End of Frequency Band (at high data rate) Test Configuration 2: EUT with Rubber Duck Antenna (2 dBi Gain) Rx Antenna Orientation: Horizontal ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Fundamental Frequency:
Power Setting:
Frequency Test Range:
915.0 MHz 30 dBm 10 MHz 10 GHz Page 89 FCC ID: NS905P20 RF Avg Level
(dBV/m) Antenna Plane
(H/V) Limit 15.209
(dBV/m) Limit 15.247
(dBV/m) Margin
(dB)
--
--
--
--
--
--
Frequency
(MHz) 915.0 915.0 2745.0 2745.0 3660.0 3660.0 4575.0 4575.0 7320.0 7320.0 RF Peak Level
(dBV/m) 128.45 128.06 45.00 47.45 49.82 49.64 51.10 50.10 52.35 52.49 V H V H V H V H V H
--
--
54.0 54.0 54.0 54.0 54.0 54.0 54.0 54.0 35.59 41.18 38.96 39.48 45.76 44.57 41.46 41.54
-18.4
-12.8
-15.0
-14.5
-8.2
-9.4
-12.5
-12.5 All other spurious emissions and harmonics are more than 20 dB below the applicable limit.
* Emission within the restricted frequency bands. 108.5 108.5 108.5 108.5 108.5 108.5 108.5 108.5 Fundamental Frequency:
Power Setting:
Frequency Test Range:
927.6 MHz 30 dBm 10 MHz 10 GHz Frequency
(MHz) 927.6 927.6 2782.8 2782.8 3710.4 3710.4 4638.0 4638.0 RF Peak Level
(dBV/m) 127.10 127.22 46.06 49.94 48.77 49.21 50.28 50.64 RF Avg Level
(dBV/m) Antenna Plane
(H/V) Limit 15.209
(dBV/m) Limit 15.247
(dBV/m)
--
--
38.94 46.36 37.62 40.09 45.64 44.05 V H V H V H V H
--
--
54.0 54.0 54.0 54.0 54.0 54.0
--
--
107.2 107.2 107.2 107.2 107.2 107.2 Margin
(dB)
--
--
-15.1
-7.6
-16.4
-13.9
-8.4
-10.0 Pass/
Fail
--
--
Pass*
Pass*
Pass*
Pass*
Pass*
Pass*
Pass*
Pass*
Pass/
Fail
--
--
Pass*
Pass*
Pass*
Pass*
Pass*
Pass*
All other spurious emissions and harmonics are more than 20 dB below the applicable limit. See the following test data plots for band-edge emissions.
* Emission within the restricted frequency bands. ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 90 FCC ID: NS905P20 Plot 6.11.5.2.3:
Band-Edge RF Radiated Emissions @ 3 meters Upper End of Frequency Band (at high data rate) Test Configuration 2: EUT with Rubber Duck Antenna (2 dBi Gain) Rx Antenna Orientation: Vertical ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 91 FCC ID: NS905P20 Plot 6.11.5.2.4:
Band-Edge RF Radiated Emissions @ 3 meters Upper End of Frequency Band (at high data rate) Test Configuration 2: EUT with Rubber Duck Antenna (2 dBi Gain) Rx Antenna Orientation: Horizontal ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A 6.11.5.3. EUT with Transit Antenna, 5.15 dBi Gain Fundamental Frequency:
Power Setting:
Frequency Test Range:
902.4 MHz 30 dBm 10 MHz 10 GHz Page 92 FCC ID: NS905P20 Frequency
(MHz) 902.4 902.4 2707.2 2707.2 3609.6 3609.6 4512.0 4512.0 5414.4 5414.4 RF Peak Level
(dBV/m) 128.70 130.37 51.18 51.85 50.58 49.35 53.09 53.33 52.50 51.50 RF Avg Level
(dBV/m) Antenna Plane
(H/V) Limit 15.209
(dBV/m) Limit 15.247
(dBV/m)
--
--
48.41 48.21 42.63 41.65 49.27 49.17 45.45 44.23 V H V H V H V H V H
--
--
54.0 54.0 54.0 54.0 54.0 54.0 54.0 54.0
--
--
110.4 110.4 110.4 110.4 110.4 110.4 110.4 110.4 Margin
(dB)
--
--
-5.6
-5.8
-11.4
-12.4
-4.7
-4.8
-8.6
-9.8 Pass/
Fail
--
--
Pass*
Pass*
Pass*
Pass*
Pass*
Pass*
Pass*
Pass*
All other spurious emissions and harmonics are more than 20 dB below the applicable limit. See the following test data plots for band-edge emissions.
* Emission within the restricted frequency bands. ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 93 FCC ID: NS905P20 Plot 6.11.5.3.1:
Band-Edge RF Radiated Emissions @ 3 meters Low End of Frequency Band (at high data rate) Test Configuration 3: EUT with Transit Antenna (5.15 dBi Gain) Rx Antenna Orientation: Vertical ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 94 FCC ID: NS905P20 Plot 6.11.5.3.2:
Band-Edge RF Radiated Emissions @ 3 meters Low End of Frequency Band (at high data rate) Test Configuration 3: EUT with Transit Antenna (5.15 dBi Gain) Rx Antenna Orientation: Horizontal ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Fundamental Frequency:
Power Setting:
Frequency Test Range:
915.0 MHz 30 dBm 10 MHz 10 GHz Page 95 FCC ID: NS905P20 Frequency
(MHz) 915.0 915.0 2745.0 2745.0 3660.0 3660.0 4575.0 4575.0 RF Peak Level
(dBV/m) 127.16 128.32 49.71 49.73 50.93 49.34 51.41 50.26 RF Avg Level
(dBV/m) Antenna Plane
(H/V) Limit 15.209
(dBV/m) Limit 15.247
(dBV/m)
--
--
45.56 45.20 42.98 39.56 45.28 44.32 V H V H V H V H
--
--
54.0 54.0 54.0 54.0 54.0 54.0
--
--
108.3 108.3 108.3 108.3 108.3 108.3 Margin
(dB)
--
--
-8.4
-8.8
-11.0
-14.4
-8.7
-9.7 Pass/
Fail
--
--
Pass*
Pass*
Pass*
Pass*
Pass*
Pass*
All other spurious emissions and harmonics are more than 20 dB below the applicable limit.
* Emission within the restricted frequency bands. Fundamental Frequency:
Power Setting:
Frequency Test Range:
927.6 MHz 30 dBm 10 MHz 10 GHz Frequency
(MHz) 927.6 927.6 2782.8 2782.8 3710.4 3710.4 4638.0 4638.0 RF Peak Level
(dBV/m) 127.28 127.35 52.27 52.39 49.71 49.37 49.91 49.38 RF Avg Level
(dBV/m) Antenna Plane
(H/V) Limit 15.209
(dBV/m) Limit 15.247
(dBV/m)
--
--
48.82 49.40 46.12 45.84 42.86 39.46 V H V H V H V H
--
--
54.0 54.0 54.0 54.0 54.0 54.0
--
--
107.4 107.4 107.4 107.4 107.4 107.4 Margin
(dB)
--
--
-5.2
-4.6
-7.9
-8.2
-11.1
-14.5 Pass/
Fail
--
--
Pass*
Pass*
Pass*
Pass*
Pass*
Pass*
All other spurious emissions and harmonics are more than 20 dB below the applicable limit. See the following test data plots for band-edge emissions.
* Emission within the restricted frequency bands. ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 96 FCC ID: NS905P20 Plot 6.11.5.3.3:
Band-Edge RF Radiated Emissions @ 3 meters Upper End of Frequency Band (at high data rate) Test Configuration 3: EUT with Transit Antenna (5.15 dBi Gain) Rx Antenna Orientation: Vertical ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 97 FCC ID: NS905P20 Plot 6.11.5.3.4:
Band-Edge RF Radiated Emissions @ 3 meters Upper End of Frequency Band (at high data rate) Test Configuration 3: EUT with Transit Antenna (5.15 dBi Gain) Rx Antenna Orientation: Horizontal ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A 6.11.5.4. EUT with Yagi Antenna, 14.15 dBi Gain, 1.53 dB Cable Loss Fundamental Frequency:
Power Setting:
Frequency Test Range:
902.4 MHz 23.10 dBm 10 MHz 10 GHz Page 98 FCC ID: NS905P20 Frequency
(MHz) 902.4 902.4 2707.2 2707.2 4512.0 4512.0 5414.4 5414.4 RF Peak Level
(dBV/m) 122.41 123.46 46.12 45.39 47.67 47.77 48.55 48.71 RF Avg Level
(dBV/m) Antenna Plane
(H/V) Limit 15.209
(dBV/m) Limit 15.247
(dBV/m)
--
--
38.10 37.16 34.64 34.38 36.65 34.98 V H V H V H V H
--
--
54.0 54.0 54.0 54.0 54.0 54.0
--
--
103.5 103.5 103.5 103.5 103.5 103.5 Margin
(dB)
--
--
-15.9
-16.8
-19.4
-19.6
-17.4
-19.0 Pass/
Fail
--
--
Pass*
Pass*
Pass*
Pass*
Pass*
Pass*
All other spurious emissions and harmonics are more than 20 dB below the applicable limit. See the following test data plots for band-edge emissions.
* Emission within the restricted frequency bands. ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 99 FCC ID: NS905P20 Plot 6.11.5.4.1:
Band-Edge RF Radiated Emissions @ 3 meters Low End of Frequency Band (at high data rate) Test Configuration 4: EUT with Yagi Antenna (14.15 dBi Gain) Rx Antenna Orientation: Vertical ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 100 FCC ID: NS905P20 Plot 6.11.5.4.2:
Band-Edge RF Radiated Emissions @ 3 meters Low End of Frequency Band (at high data rate) Test Configuration 4: EUT with Yagi Antenna (14.15 dBi Gain) Rx Antenna Orientation: Horizontal ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Fundamental Frequency:
Power Setting:
Frequency Test Range:
915.0 MHz 23.10 dBm 10 MHz 10 GHz RF Avg Level
(dBV/m) Antenna Plane
(H/V) Limit 15.209
(dBV/m) Limit 15.247
(dBV/m) Frequency
(MHz) 915.0 915.0 2745.0 4575.0 4575.0 RF Peak Level
(dBV/m) 112.68 111.89 45.70 48.23 46.48
--
--
V H H V H
--
--
54.0 54.0 54.0
--
--
92.7 92.7 92.7 36.22 35.16 34.21
-17.8
-18.8
-19.8 All other spurious emissions and harmonics are more than 20 dB below the applicable limit.
* Emission within the restricted frequency bands. Margin
(dB)
--
--
Fundamental Frequency:
Power Setting:
Frequency Test Range:
927.6 MHz 23.10 dBm 10 MHz 10 GHz Page 101 FCC ID: NS905P20 Pass/
Fail
--
--
Pass*
Pass*
Pass*
Frequency
(MHz) 927.6 927.6 2782.8 2782.8 4638.0 4638.0 RF Peak Level
(dBV/m) 108.94 108.48 45.36 45.21 47.98 47.91 RF Avg Level
(dBV/m) Antenna Plane
(H/V) Limit 15.209
(dBV/m) Limit 15.247
(dBV/m)
--
--
34.44 34.72 34.38 34.21 V H V H V H
--
--
54.0 54.0 54.0 54.0
--
--
88.9 88.9 88.9 88.9 Margin
(dB)
--
--
-19.6
-19.3
-19.6
-19.8 Pass/
Fail
--
--
Pass*
Pass*
Pass*
Pass*
All other spurious emissions and harmonics are more than 20 dB below the applicable limit. See the following test data plots for band-edge emissions.
* Emission within the restricted frequency bands. ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 102 FCC ID: NS905P20 Plot 6.11.5.4.3:
Band-Edge RF Radiated Emissions @ 3 meters Upper End of Frequency Band (at high data rate) Test Configuration 4: EUT with Yagi Antenna (14.15 dBi Gain) Rx Antenna Orientation: Vertical ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 103 FCC ID: NS905P20 Plot 6.11.5.4.4:
Band-Edge RF Radiated Emissions @ 3 meters Upper End of Frequency Band (at high data rate) Test Configuration 4: EUT with Yagi Antenna (14.15 dBi Gain) Rx Antenna Orientation: Horizontal ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A 6.11.5.5. EUT with Omni Directional Antenna, 8.15 dBi Gain, 1.53 dB Cable Loss Fundamental Frequency:
Power Setting:
Frequency Test Range:
902.4 MHz 29.29 dBm 10 MHz 10 GHz Page 104 FCC ID: NS905P20 Frequency
(MHz) 902.4 902.4 2707.2 2707.2 3609.6 3609.6 4512.0 4512.0 5414.4 5414.4 RF Peak Level
(dBV/m) 131.92 132.45 48.39 48.08 49.65 49.46 51.48 51.13 51.17 50.63 RF Avg Level
(dBV/m) Antenna Plane
(H/V) Limit 15.209
(dBV/m) Limit 15.247
(dBV/m)
--
--
42.93 40.76 38.26 38.02 45.19 43.69 42.18 40.89 V H V H V H V H V H
--
--
54.0 54.0 54.0 54.0 54.0 54.0 54.0 54.0
--
--
112.5 112.5 112.5 112.5 112.5 112.5 112.5 112.5 Margin
(dB)
--
--
-11.1
-13.2
-15.7
-16.0
-8.8
-10.3
-11.8
-13.1 Pass/
Fail
--
--
Pass*
Pass*
Pass*
Pass*
Pass*
Pass*
Pass*
Pass*
All other spurious emissions and harmonics are more than 20 dB below the applicable limit. See the following test data plots for band-edge emissions.
* Emission within the restricted frequency bands. ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 105 FCC ID: NS905P20 Plot 6.11.5.5.1:
Band-Edge RF Radiated Emissions @ 3 meters Low End of Frequency Band (at high data rate) Test Configuration 5: EUT with Omni Directional Antenna (8.15 dBi Gain) Rx Antenna Orientation: Vertical ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 106 FCC ID: NS905P20 Plot 6.11.5.5.2:
Band-Edge RF Radiated Emissions @ 3 meters Low End of Frequency Band (at high data rate) Test Configuration 5: EUT with Omni Directional Antenna (8.15 dBi Gain) Rx Antenna Orientation: Horizontal ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Fundamental Frequency:
Power Setting:
Frequency Test Range:
915.0 MHz 29.29 dBm 10 MHz 10 GHz Page 107 FCC ID: NS905P20 Frequency
(MHz) 915.0 915.0 2745.0 2745.0 3660.0 3660.0 4575.0 4575.0 RF Peak Level
(dBV/m) 128.45 128.71 49.00 47.37 50.15 49.59 51.33 49.41 RF Avg Level
(dBV/m) Antenna Plane
(H/V) Limit 15.209
(dBV/m) Limit 15.247
(dBV/m)
--
--
44.37 41.80 41.87 41.15 46.78 45.27 V H V H V H V H
--
--
54.0 54.0 54.0 54.0 54.0 54.0
--
--
108.7 108.7 108.7 108.7 108.7 108.7 Margin
(dB)
--
--
-9.6
-12.2
-12.1
-12.9
-7.2
-8.7 All other spurious emissions and harmonics are more than 20 dB below the applicable limit.
* Emission within the restricted frequency bands. Fundamental Frequency:
Power Setting:
Frequency Test Range:
927.6 MHz 29.29 dBm 10 MHz 10 GHz Frequency
(MHz) 927.6 927.6 2782.8 2782.8 3710.4 3710.4 4638.0 4638.0 RF Peak Level
(dBV/m) 127.12 127.61 52.46 50.25 48.15 49.48 49.93 48.30 RF Avg Level
(dBV/m) Antenna Plane
(H/V) Limit 15.209
(dBV/m) Limit 15.247
(dBV/m)
--
--
49.72 46.40 43.25 43.89 43.66 40.59 V H V H V H V H
--
--
54.0 54.0 54.0 54.0 54.0 54.0
--
--
107.6 107.6 107.6 107.6 107.6 107.6 Margin
(dB)
--
--
-4.3
-7.6
-10.8
-10.1
-10.3
-13.4 Pass/
Fail
--
--
Pass*
Pass*
Pass*
Pass*
Pass*
Pass*
Pass/
Fail
--
--
Pass*
Pass*
Pass*
Pass*
Pass*
Pass*
All other spurious emissions and harmonics are more than 20 dB below the applicable limit. See the following test data plots for band-edge emissions.
* Emission within the restricted frequency bands. ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 108 FCC ID: NS905P20 Plot 6.11.5.5.3:
Band-Edge RF Radiated Emissions @ 3 meters Upper End of Frequency Band (at high data rate) Test Configuration 5: EUT with Omni Directional Antenna (8.15 dBi Gain) Rx Antenna Orientation: Vertical ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 109 FCC ID: NS905P20 Plot 6.11.5.5.4:
Band-Edge RF Radiated Emissions @ 3 meters Upper End of Frequency Band (at high data rate) Test Configuration 5: EUT with Omni Directional Antenna (8.15 dBi Gain) Rx Antenna Orientation: Horizontal ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A EXHIBIT 7. MEASUREMENT UNCERTAINTY Page 110 FCC ID: NS905P20 The measurement uncertainties stated were calculated in accordance with the requirements of NIST Technical Note 1297 and NIS 81 (1994) 7.1. LINE CONDUCTED EMISSION MEASUREMENT UNCERTAINTY CONTRIBUTION
(Line Conducted) PROBABILITY DISTRIBUTION UNCERTAINTY (dB) 9-150 kHz 0.15-30 MHz EMI Receiver specification LISN coupling specification Cable and Input Transient Limiter calibration Mismatch: Receiver VRC 1 = 0.03 LISN VRC R = 0.8(9 kHz) 0.2 (30 MHz) Uncertainty limits 20Log(1+1R) System repeatability Repeatability of EUT Combined standard uncertainty Expanded uncertainty U Rectangular Rectangular Normal (k=2) U-Shaped Std. deviation
--
Normal Normal (k=2)
+1.5
+1.5
+0.3
+0.2
+0.2
--
+1.25
+2.50
+1.5
+1.5
+0.5
+0.3
+0.05
--
+1.30
+2.60 Sample Calculation for Measurement Accuracy in 450 kHz to 30 MHz Band:
uc(y) = mui I=1 U = 2uc(y) = + 2.6 dB 2(y) = + (1.52 + 1.52)/3+ (0.5/2) 2 + (0.05/2) 2+0.352 = + 1.30 dB ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A 7.2. RADIATED EMISSION MEASUREMENT UNCERTAINTY Page 111 FCC ID: NS905P20 CONTRIBUTION
(Radiated Emissions) Antenna Factor Calibration Cable Loss Calibration EMI Receiver specification Antenna Directivit Antenna factor variation with height Antenna phase center variation Antenna factor frequency interpolation Measurement distance variation Site imperfections Mismatch: Receiver VRC 1 = 0.2 Antenna VRC R = 0.67(Bi) 0.3 (Lp) Uncertainty limits 20Log(1+1R) System repeatability Repeatability of EUT Combined standard uncertainty Expanded uncertainty U PROBABILITY DISTRIBUTION Normal (k=2) Normal (k=2) Rectangular Rectangular Rectangular Rectangular Rectangular Rectangular Rectangular U-Shaped Std. Deviation UNCERTAINTY (+ dB) 3 m 10 m
+1.0
+1.0
+0.5
+0.3
+1.5
+1.5
+0.5
+0.5
+0.5
+2.0
+0.2 0.0
+0.25
+0.25
+0.4
+0.6
+2.0
+2.0
+1.1
-1.25
+0.5
-
+0.5
+0.5
-
Normal Normal (k=2)
+2.19 / -2.21
+4.38 / -4.42
+1.74 / -1.72
+3.48 / -3.44 Calculation for maximum uncertainty when 3m biconical antenna including a factor of k = 2 is used:
U = 2uc(y) = 2x(+2.19) = +4.38 dB And U = 2uc(y) = 2x(-2.21) = -4.42 dB ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 Page 112 FCC ID: NS905P20 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A EXHIBIT 8. MEASUREMENT METHODS 8.1. GENERAL TEST CONDITIONS The following test conditions shall be applied throughout the tests covered in this report. 8.1.1. Normal temperature and humidity The actual values during tests shall be recorded in the test report. Normal temperature: +15oC to +35oC Relative Humidity: +20% to 75%
8.1.2. Normal power source 8.1.2.1. Mains Voltage The nominal test voltage of the equipment to be connected to mains shall be the nominal mains voltage which is the declared voltage or any of the declared voltages for which the equipment was designed. The frequency of test power source corresponding to the AC mains shall be between 59 Hz and 61 Hz. 8.1.2.2. Battery Power Source. For operation from battery power sources, the nominal test voltage shall be as declared by the equipment manufacturer. This shall be recorded in the test report. 8.1.3. Operating Condition of Equipment under Test All tests were carried out while the equipment operated at the following frequencies:
- The lowest operating frequency,
- The middle operating frequency and
- The highest operating frequency Modulation were applied using the Test Data sequence The transmitter was operated at the highest output power, or in the case the equipment able to operate at more than one power level, at the lowest and highest output powers ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A 8.2. METHOD OF MEASUREMENTS - AC MAINS CONDUCTED EMISSIONS AC Mains conducted emissions measurements were performed in accordance with the standard against Page 113 FCC ID: NS905P20 appropriate limits for each detector function. The test was performed in the shielded room, 24'(L) by 16'(W) by 8'(H). The test was performed were made over the frequency range from 150 kHz to 30 MHz to determine the line-
to-ground radio noise voltage which was conducted from the EUT power-input terminals that were directly connected to a public power network. The EUT normally received power from another device that connects to the public utility ac power lines, measurements would be made on that device with the EUT in operation to ensure that the device continues to comply with the appropriate limits while providing the EUT with power. If the EUT operates only from internal or dedicated batteries, with no provisions for connection to the public utility ac power lines, AC Mains conducted measurements are not required. Table-top devices were placed on a platform of nominal size 1 m by 1.5m raised 80 cm above the conducting ground plane. The EUT current-carrying power lead, except the ground (safety) lead, was individually connected through a LISN to the power source. All unused 50-Ohm connectors of the LISN was terminated in 50-ohm when not connected to the measuring instruments. The line cord of the EUT connected to one LISN which was connected to the measuring instrument. Those power cords for the units of devices not under measurement were connected to a separate multiple ac outlet. Drawings and photographs of typically conducted emission test setups were shown in the Test Report. Each current-carrying conductor of the EUT shall be individually tested. The EUT was normally operated with a ground (safety) connection, the EUT was connected to the ground at the LISN through a conductor provided in the lead from the ac power mains to the LISN. The excess length of the power cord was folded back and forth in an 8-shape on a wooden strip with a vertical prong located on the top of the LISN case. The EUT was set-up in its typical configuration and operated in its various modes as described in this test A preliminary scan was made by using spectrum analyzer system with the detector function set to PEAK mode (9 KHz RBW, VBW > RBW), frequency span 150 kHz to 30 MHz. The maximum conducted emission for a given mode of operation was found by using the following step-by-
report. step procedure:
Step 1. Monitor the frequency range of interest at a fixed EUT azimuth. Step 2. Manipulate the system cables and peripheral devices to produce highest amplitude signal relative to the limit. Note the amplitude and frequency of the suspect signal. Step 3. The effects of various modes of operation is examined. This is done by varying equipment operation modes as step 2 is being performed. Step 4. After completing step 1 through 3, record EUT and peripheral device configuration, mode of operation, cable configuration, signal levels and frequencies for final test. Each highest signal level at the maximized test configuration was zoomed in a small frequency span on the spectrum analyzer's display (the manipulation of cables and peripheral devices and EUT operation modes might have to be repeated to obtain the highest signal level with the spectrum analyzer set to PEAK detector mode 10 KHz RBW and VBW > RBW). The spectrum analyzer was then set to CISPR QUASI-PEAK detector mode (9 KHz RBW, 1 MHz VBW) and AVERAGE detector mode (9 kHz RBW, 1 Hz VBW). The final highest RF signal levels and frequencies were record. ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 Page 114 FCC ID: NS905P20 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A 8.3. EQUIVALENT ISOTROPIC RADIATED POWER (EIRP)
The following shall be applied to the combination(s) of the radio device and its intended antenna(e).
I f the RF level is user adjustable, all measurements shall be made with the highest power level available to the user for that combination.
The following method of measurement shall apply to both conducted and radiated measurements.
The radiated measurements are performed at the Ultratech Calibrated Open Field Test Site.
The measurement shall be performed using normal operation of the equipment with modulation. Test procedure shall be as follows:
Step 1: Duty Cycle measurements
Using a spectrum analyzer with the frequency span set to 0 Hz and the sweep time set at a suitable value to capture the envelope peaks and the duty cycle of the transmitter output signal;
The duty cycle of the transmitter, x = Tx on / (Tx on + Tx off) with 0<x<1, is measure and recorded in the test report. For the purpose of testing, the equipment shall be operated with a duty cycle that is equal or more than 0.1. Step 2: Calculation of Peak and Average EIRP
The peak output power of the transmitter shall be determined using a wideband, calibrated RF Peak Power Meter with the power sensor with an integration period that exceeds the repetition period of the transmitter by a factor 5 or more. The observed value shall be recorded as P (in dBm);
The Average EIRP shall be calculated from the above measured power output A, the observed duty cycle x, and the applicable antenna assembly gain G in dBi, according to the formula:
Figure 1 Peak EIRP = P + G Average EIRP = Peak EIRP + 10log(1/x) ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Step 3: Substitution Method. See Figure 2
(a) The measurements was performed in the absence of modulation (un-modulated)
(b) Test was performed at listed 3m open area test site (listed with FCC, IC, ITI, NVLAP, ACA & VCCI).
(c) The transmitter under test was placed at the specified height on a non-conducting turntable (80 cm Page 115 FCC ID: NS905P20 height)
(d) The dipole test antenna was used and tuned to the transmitter carrier frequency.
(e) The spectrum analyzer was tuned to transmitter carrier frequency. The test antenna was lowered or raised from 1 to 4 meters until the maximum signal level was detected.
(f) The transmitter was rotated through 360o about a vertical axis until a higher maximum signal was
(g) The test antenna was lowered or raised again from 1 to 4 meters until a maximum was obtained. This received. level was recorded.
(h) The substitution dipole antenna and the signal generator replaced the transmitter and antenna under test in the same position, and the substitution dipole antenna was placed in vertical polarization. The test dipole antenna was lowered or raised as necessary to ensure that the maximum signal is stilled received.
(i) The input signal to the substitution antenna was adjusted in level until an equal or a known related level to that detected from the transmitter was obtained in the test receiver. The maximum carrier radiated power is equal to the power supply by the generator.
(j) The substitution antenna gain and cable loss were added to the signal generator level for the corrected
(k) Repeat steps (c) to (j) with the substitution antenna oriented in horizontal polarization.
(l) Actual gain of the EUTs antenna is the difference of the measured ERP and measured RF power at the ERP level. RF port. Correct the antenna gain if necessary. Figure 2 ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 Page 116 FCC ID: NS905P20 Figure 3 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Use the following spectrum analyzer settings:
Span = approximately 5 times the 20 dB BW, centered on a hopping channel RBW > 20 dB BW of the emission measured VBW = RBW Trace = max hold Allow the trace to stabilize Use the marker-to-marker function to set the marker to the peak of the emission. The indicated level is the peak output power (with the addition of the external attenuation and cable loss). The limit is specified in one of the subparagraph of this Section. Submit this plot. A peak responding power meter may be used instead of a spectrum analyzer. ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 Page 117 FCC ID: NS905P20 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A 8.4. SPURIOUS EMISSIONS (CONDUCTED & RADIATED) For both conducted and radiated measurements, the spurious emissions were scanned from the lowest frequency generated by the EUT or 10 MHz whichever is lower to 10th harmonic of the highest frequency generated by the EUT. 8.4.1. Band-Edge and Spurious Emissions (Conducted) Band-Edge Compliance of RF Conducted Emissions:
Use the following spectrum analyzer settings:
The radio was connected to the measuring equipment via a suitable attenuator. Span = wide enough to capture the peak level of the emission operating on the channel closest to the band-
edge, as well as any modulation products which fall outside of the authorized band of operation. RBW = 1 % of the span VBW = RBW Sweep = auto Detector function = peak Trace = max hold Allow the trace to stabilize Set the marker on the emission at the band-edge, or on the highest modulation product outside of the band, if this level is greater than that at the band-edge Enable the marker-delta function, then use the marker-to-peak function to move the marker to the peak of the in-band emission. The marker-delta value now displayed must comply with the limit specified Now, using the same instrument settings, enable the hopping function of the EUT Allow the trace to stabilize Follow the same procedure listed above to determine if any spurious emissions cause by the hopping function also comply with the specify limits. Submit this plot Spurious RF Conducted Emissions:
Use the following spectrum analyzer settings:
The radio was connected to the measuring equipment via a suitable attenuator. Span = wide enough to capture the peak level of the in-band-emission and all spurious emissions (e.g. harmonics) from the lowest frequency generated in the EUT up through the 10th harmonic. Typically, sevral plots are required to cover this entire span. RBW = 100 kHz VBW = RBW Sweep = auto Detector function = peak Trace = max hold Allow the trace to stabilize Set the marker on the any spurious emission recorded. The level displayed must comply with the limit specified in this Section. Submit this plot ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A 8.4.2. Spurious Emissions (Radiated) The radiated emission measurements were performed at the UltraTechs 3 Meter Open Field Test Site Page 118 FCC ID: NS905P20
(OFTS) situated in the Town of Oakville, province of Ontario. The Attenuation Characteristics of OFTS have been filed to FCC, Industry Canada, ACA/Austel, NVLap and ITI. Radiated emissions measurements were made using the following test instruments:
1. Calibrated EMCO BiconiLog antenna in the frequency range from 30 MHz to 2000 MHz. 2. Calibrated Emco Horn antennas in the frequency range above 1000 MHz (1GHz - 40 GHz). 3. The test is required for any spurious emission or modulation product that falls in a Restricted Band, as defined in Section 15.205. It must be performed with the highest gain of each type of antenna proposed for use with the EUT. Use the following spectrum analyzer settings:
RBW = 100 kHz for f < 1GHz and RBW = 1 MHz for f > 1 GHz
VBW = RBW
Sweep = auto
Detector function = peak
Trace = max hold
Follows the guidelines in ANSI C63.4-1992 with respect to maximizing the emission by rotating the EUT, measuring the emission while the EUT is situated in three orthogonal planes (if appropriate), adjusting the measurement antenna height and polarization, etc.. A pre-amp and highpass filter are required for this test, in order to provide the measuring system with sufficient sensitivity.
Allow the trace to stabilize.
The peak reading of the emission, after being corrected by the antenna correction factor, cable loss, pre-amp gain, etc. is the peak field strength which comply with the limit specified in Section 15.35(b) Calculation of Field Strength:
The field strength is calculated by adding the calibrated antenna factor and cable factor, and subtracting the Amplifier gain (if any) from the measured reading. The basic equation with a sample calculation is as follows:
FS = RA + AF + CF - AG Where FS RA AF CF AG
=
=
=
=
=
Field Strength Receiver/Analyzer Reading Antenna Factor Cable Attenuation Factor Amplifier Gain Example:
If a receiver reading of 60.0 dBV is obtained, the antenna factor of 7.0 dB/m and cable factor of 1.0 dB are added, and the amplifier gain of 30 dB is subtracted. The actual field strength will be:
Field Level = 60 + 7.0 + 1.0 - 30 = 38.0 dBV/m. Field Level = 10(38/20) = 79.43 V/m. ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A Page 119 FCC ID: NS905P20
Submit this test data
Now set the VBW to 10Hz, while maintaining all of the other instrument settings. This peak level, once corrected, must comply with the limit specified in Section 15.209. If the dwell time per channel of the hopping signal is less than 100ms, then the reading obtained may be further adjusted by a duty cycle correction factor, derived from 10log(dwell time/100mS) in an effort to demonstrate compliance with the 15.209.
Submit test data Maximizing The Radiated Emissions:
The frequencies of emissions was first detected. Then the amplitude of the emissions was measured at the specified measurement distance using required antenna height, polarization, and detector characteristics. During this process, cables and peripheral devices were manipulated within the range of likely configuration. For each mode of operation required to be tested, the frequency spectrum was monitored. Variations in antenna heights (from 1 meter to 4 meters above the ground plane), antenna polarization (horizontal plane and vertical plane), cable placement and peripheral placement were explored to produce the highest amplitude signal relative to the limit. The maximum radiated emission for a given mode of operation was found by using the following step-by-step procedure:
Step 1: Monitor the frequency range of interest at a fixed antenna height and EUT azimuth. Step 2: Manipulate the system cables to produce highest amplitude signal relative to the limit. Note the amplitude and frequency of the suspect signal. Step 3: Rotate the EUT 360 degrees to maximize the suspected highest amplitude signal. If the signal or another at a different frequency is observed to exceed the previously noted highest amplitude signal by 1 dB or more, go back to the azimuth and repeat Step 2. Otherwise, orient the EUT azimuth to repeat the highest amplitude observation and proceed. Step 4: Move the antenna over its full allowable range of travel (1 to 4 meters) to maximize the suspected highest amplitude signal. If the signal or another at a different frequency is observed to exceed the previously noted highest amplitude signal by 1 dB or more, return to Step 2 with the highest amplitude observation and proceed. Step 5: Change the polarization of the antenna and repeat Step 2 through 4. Compare the resulting suspected highest amplitude signal with that found for the other polarization. Select and note the higher of the two signals. This signal is termed the highest observed signal with respect to the limit for this EUT operational mode. Step 6: The effects of various modes of operation is examined. This is done by varying the equipment modes as steps 2 through 5 are being performed. Step 7: After completing steps 1 through 6, record the final highest emission level, frequency, antenna polarization and detector mode of the measuring instrument. ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006 Page 120 FCC ID: NS905P20 FCC Part 15, Subpart C, Section 15.247 - FHSS MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A 8.5. ALTERNATIVE TEST PROCEDURES If the antenna conducted tests cannot be performed on this device, radiated tests show compliance with the peak output power limit specified in Section 15.247(b) and the spurious RF conducted emission limit specified in Section 15.247(c) are acceptable. As stated previously, a pre-amp, and, in the later case, a high pass filter, are required for the following measurements:
8.5.1. Peak Power Measurements Calculate the transmitters peak power using the following equation:
E = 30PG/d P = (Ed)2/30G Where:
E: measured maximum fundamental field strength in V/m. Utilizing a RBW, the 20 dB bandwidth of the emission VBW >RBW, peak detector function. Follow the procedures in C63.4-1992 with respect to maximizing the emission
G is numeric gain of the transmitting antenna with reference to an isotropic radiator
D is the distance in meters from which the field strength was measured
P is the distance in meters from which the field strength was measured 8.5.2. Spurious RF conducted emissions The demonstrate compliance with the spurious RF conducted emission requirement of Section 15.2479(c), use the following spectrum analyzer settings:
Span = wide enough to fully capture the emission being measured
RBW = 100 kHz
Sweep = auto
Detector function = peak
Trace = max hold
Measure the field strength of both the fundamental and all spurious emissions with these settings.
Follow the procedures C63.4 with respect to maximizing the emissions. The measured field strength of all spurious emissions must be below the measured field strength of the fundamental emission by the amount specified in Section 15.247. Note that if the emission falls in a Restricted Band, as defined in Section 15.205, the procedure for measuring spurious radiated emissions listed above must be followed ULTRATECH GROUP OF LABS 3000 Bristol Circle, Oakville, Ontario, Canada L6H 6G4 Tel. #: 905-829-1570, Fax. #: 905-829-8050, Email: vic@ultratech-labs.com, Website: http://www.ultratech-labs.com All test results contained in this engineering test report are traceable to National Institute of Standards and Technology (NIST) File #: MCRS-010F15C247 January 9, 2006
1 | test setup photos | Test Setup Photos | 1.10 MiB |
ANNEX 1 - TEST SETUP PHOTOS AC Power Line Conducted Emissions Microhard Systems Inc. MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A FCC ID: NS905P20 IC: 3143A-05P20 A1 - 1 ANNEX 1 - TEST SETUP PHOTOS AC Power Line Conducted Emissions Microhard Systems Inc. MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A FCC ID: NS905P20 IC: 3143A-05P20 A1 - 2 ANNEX 1 - TEST SETUP PHOTOS Radiated Emissions @ 3 Meters EUT with Quarter Wave Antenna, 1.5 dBi Gain Microhard Systems Inc. MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A FCC ID: NS905P20 IC: 3143A-05P20 A1 - 3 ANNEX 1 - TEST SETUP PHOTOS Radiated Emissions @ 3 Meters EUT with Quarter Wave Antenna, 1.5 dBi Gain Microhard Systems Inc. MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A FCC ID: NS905P20 IC: 3143A-05P20 A1 - 4 ANNEX 1 - TEST SETUP PHOTOS Radiated Emissions @ 3 Meters EUT with Rubber Ducky Antenna, 2 dBi Gain Microhard Systems Inc. MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A FCC ID: NS905P20 IC: 3143A-05P20 A1 - 5 ANNEX 1 - TEST SETUP PHOTOS Radiated Emissions @ 3 Meters EUT with Rubber Ducky Antenna, 2 dBi Gain Microhard Systems Inc. MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A FCC ID: NS905P20 IC: 3143A-05P20 A1 - 6 ANNEX 1 - TEST SETUP PHOTOS Radiated Emissions @ 3 Meters EUT with Transit Antenna, 5.15 dBi Gain Microhard Systems Inc. MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A FCC ID: NS905P20 IC: 3143A-05P20 A1 - 7 ANNEX 1 - TEST SETUP PHOTOS Radiated Emissions @ 3 Meters EUT with Transit Antenna, 5.15 dBi Gain Microhard Systems Inc. MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A FCC ID: NS905P20 IC: 3143A-05P20 A1 - 8 ANNEX 1 - TEST SETUP PHOTOS Radiated Emissions @ 3 Meters EUT with Yagi Antenna, 14.15 dBi Gain Microhard Systems Inc. MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A FCC ID: NS905P20 IC: 3143A-05P20 A1 - 9 ANNEX 1 - TEST SETUP PHOTOS Radiated Emissions @ 3 Meters EUT with Yagi Antenna, 14.15 dBi Gain Microhard Systems Inc. MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A FCC ID: NS905P20 IC: 3143A-05P20 A1 - 10 ANNEX 1 - TEST SETUP PHOTOS Radiated Emissions @ 3 Meters EUT with Omni Directional Antenna, 8.15 dBi Gain Microhard Systems Inc. MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A FCC ID: NS905P20 IC: 3143A-05P20 A1 - 11 ANNEX 1 - TEST SETUP PHOTOS Radiated Emissions @ 3 Meters EUT with Omni Directional Antenna, 8.15 dBi Gain Microhard Systems Inc. MHX920 - 900 MHz OEM Frequency Hopping Module, Model MHX920A FCC ID: NS905P20 IC: 3143A-05P20 A1 - 12
frequency | equipment class | purpose | ||
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1 | 2006-01-19 | 902.4 ~ 927.6 | DSS - Part 15 Spread Spectrum Transmitter | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 | Effective |
2006-01-19
|
||||
1 | Applicant's complete, legal business name |
Microhard Systems Inc
|
||||
1 | FCC Registration Number (FRN) |
0007211139
|
||||
1 | Physical Address |
150 Country Hills Landing NW
|
||||
1 |
Calgary, AB, N/A
|
|||||
1 |
Canada
|
|||||
app s | TCB Information | |||||
1 | TCB Application Email Address |
T******@TIMCOENGR.COM
|
||||
1 | TCB Scope |
A4: UNII devices & low power transmitters using spread spectrum techniques
|
||||
app s | FCC ID | |||||
1 | Grantee Code |
NS9
|
||||
1 | Equipment Product Code |
05P20
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
H******** S********
|
||||
1 | Title |
President
|
||||
1 | Telephone Number |
403 2********
|
||||
1 | Fax Number |
403 2********
|
||||
1 |
S******@microhardcorp.com
|
|||||
app s | Technical Contact | |||||
n/a | ||||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 | 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 | 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?: | No | ||||
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 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 | Equipment Class | DSS - Part 15 Spread Spectrum Transmitter | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | MHX920-900MHz OEM FRQUENCY HOPPING MODULE | ||||
1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 | Modular Equipment Type | Single Modular Approval | ||||
1 | Purpose / Application is for | Original Equipment | ||||
1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 | 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 | Grant Comments | Power listed is conducted. Modular Approval. Approval is limited to OEM installation only. The OEM installer must be provided with antenna installation instructions and transmitter operating conditions for satisfying RF exposure compliance. This transmitter is restricted for use with the specific antenna(s) and cable(s) tested in this application for Certification and must not be co-located or operating in conjunction with any other antenna or transmitter. OEM integrators and End-Users must be provided with transmitter operation conditions for satisfying RF exposure and EIRP maximum power compliance. The instruction manual furnished with the intentional radiator shall contain language in the installation instructions informing the operator and the installer of this responsibility. This grant is valid only when the device is sold to OEM integrators and the OEM integrators are instructed to ensure that the end user has no manual instructions to remove or install the device. RF Conducted Power is continuously variable from 0.001 to 1.0 Watt. | ||||
1 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 | 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 | Firm Name |
UltraTech Engineering Labs Inc.
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1 | Name |
T**** L****
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1 | Telephone Number |
877-7********
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1 | Fax Number |
905-8********
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1 |
t******@ultratech-labs.com
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Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
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Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15C | 902.40000000 | 927.60000000 | 1.0000000 |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC