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Electromagnetic Emissions Test Report and
Application for Grant of Equipment Authorization pursuant to
Industry Canada RSS-Gen Issue 2 / RSS 210 Issue 7 FCC Part 15 Subpart C
on the Summit Data Communications
Transmitter Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
UPN: 6616A-SDCCF10AG FCC ID: TWG-SDCCF10AG GRANTEE: Summit Data Communications 526 South Market Suite 407 Akron, OH 44311 TEST SITE: Elliott Laboratories, Inc. 684 W. Maude Ave Sunnyvale, CA 94086 REPORT DATE: March 5, 2008 FINAL TEST DATE: November 19, Novembeer 27, December 14 andDecember 19, 2007 and Janaury 14, January 15, January 25 and January 28, and March 4, 2008 AUTHORIZED SIGNATORY: ______________________________ Mark E. Hill Staff Engineer
Elliott Laboratories, Inc. is accredited by the A2LA, certificate number 2016-01, to perform the test(s) listed in this report. This report shall not be reproduced, except in its entirety, without the written approval of Elliott Laboratories, Inc.
Testing Cert #2016-01
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REVISION HISTORY
Rev # Date Comments Modified By
1 3/6/08 Initial Release DG
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TABLE OF CONTENTS
COVER PAGE.............................................................................................................................................................1
REVISION HISTORY..............................................................................................................................................2
TABLE OF CONTENTS ..........................................................................................................................................3
SCOPE........................................................................................................................................................................5
OBJECTIVE..............................................................................................................................................................6
STATEMENT OF COMPLIANCE.........................................................................................................................6
TEST RESULTS SUMMARY .................................................................................................................................7 DIGITAL TRANSMISSION SYSTEMS (2400 – 2483.5MHZ) ...........................................................................7 DIGITAL TRANSMISSION SYSTEMS (5725 –5850 MHZ) ..............................................................................7 GENERAL REQUIREMENTS APPLICABLE TO ALL BANDS .......................................................................8
MEASUREMENT UNCERTAINTIES...................................................................................................................8
EQUIPMENT UNDER TEST (EUT) DETAILS....................................................................................................9 GENERAL..............................................................................................................................................................9 ANTENNA SYSTEM ............................................................................................................................................9 ENCLOSURE.........................................................................................................................................................9 MODIFICATIONS.................................................................................................................................................9 SUPPORT EQUIPMENT.....................................................................................................................................10 EUT INTERFACE PORTS ..................................................................................................................................10 EUT OPERATION...............................................................................................................................................10
TEST SITE...............................................................................................................................................................11 GENERAL INFORMATION...............................................................................................................................11 CONDUCTED EMISSIONS CONSIDERATIONS ............................................................................................11 RADIATED EMISSIONS CONSIDERATIONS ................................................................................................11
MEASUREMENT INSTRUMENTATION ..........................................................................................................12 RECEIVER SYSTEM ..........................................................................................................................................12 INSTRUMENT CONTROL COMPUTER ..........................................................................................................12 LINE IMPEDANCE STABILIZATION NETWORK (LISN) ............................................................................12 FILTERS/ATTENUATORS ................................................................................................................................13 ANTENNAS.........................................................................................................................................................13 ANTENNA MAST AND EQUIPMENT TURNTABLE.....................................................................................13 INSTRUMENT CALIBRATION.........................................................................................................................13
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TABLE OF CONTENTS (Continued)
TEST PROCEDURES ............................................................................................................................................14
EUT AND CABLE PLACEMENT......................................................................................................................14 CONDUCTED EMISSIONS................................................................................................................................14 RADIATED EMISSIONS....................................................................................................................................14 RADIATED EMISSIONS....................................................................................................................................15 BANDWIDTH MEASUREMENTS ....................................................................................................................18 SPECIFICATION LIMITS AND SAMPLE CALCULATIONS.........................................................................19 CONDUCTED EMISSIONS SPECIFICATION LIMITS: FCC 15.207; FCC 15.107(A), RSS GEN ...............19 GENERAL TRANSMITTER RADIATED EMISSIONS SPECIFICATION LIMITS.......................................20 RECEIVER RADIATED SPURIOUS EMISSIONS SPECIFICATION LIMITS ..............................................20 OUTPUT POWER LIMITS – DIGITAL TRANSMISSION SYSTEMS............................................................21 TRANSMIT MODE SPURIOUS RADIATED EMISSIONS LIMITS – FHSS AND DTS SYSTEMS..............21 SAMPLE CALCULATIONS - CONDUCTED EMISSIONS .............................................................................22 SAMPLE CALCULATIONS - RADIATED EMISSIONS .................................................................................22 SAMPLE CALCULATIONS - FIELD STRENGTH TO EIRP CONVERSION................................................23
EXHIBIT 1: Test Equipment Calibration Data..................................................................................................1 EXHIBIT 2: Test Measurement Data.................................................................................................................2 EXHIBIT 3: Photographs of Test Configurations..............................................................................................3 EXHIBIT 4: Proposed FCC ID Label & Label Location ..................................................................................4 EXHIBIT 5: Detailed Photographs....................................................................................................................5 EXHIBIT 6: Operator's Manual ........................................................................................................................6 EXHIBIT 7: Block Diagram...............................................................................................................................7 EXHIBIT 8: Schematic Diagrams......................................................................................................................8 EXHIBIT 9: Theory of Operation ......................................................................................................................9 EXHIBIT 10: RF Exposure Information ..........................................................................................................10
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SCOPE
An electromagnetic emissions test has been performed on the Summit Data Communications model SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors pursuant to the following rules:
Industry Canada RSS-Gen Issue 2 RSS 210 Issue 7 “Low-power Licence-exempt Radiocommunication Devices (All Frequency Bands): Category I Equipment” FCC Part 15 Subpart C
Conducted and radiated emissions data has been collected, reduced, and analyzed within this report in accordance with measurement guidelines set forth in the following reference standards and as outlined in Elliott Laboratories test procedures:
ANSI C63.4:2003 The intentional radiator above has been tested in a simulated typical installation to demonstrate compliance with the relevant Industry Canada performance and procedural standards. Final system data was gathered in a mode that tended to maximize emissions by varying orientation of EUT, orientation of power and I/O cabling, antenna search height, and antenna polarization. Every practical effort was made to perform an impartial test using appropriate test equipment of known calibration. All pertinent factors have been applied to reach the determination of compliance. The test results recorded herein are based on a single type test of the Summit Data Communications model SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors and therefore apply only to the tested sample. The sample was selected and prepared by Ron Seide of Summit Data Communications.
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OBJECTIVE
The primary objective of the manufacturer is compliance with the regulations outlined in the previous section. Prior to marketing in the USA, all unlicensed transmitters and transceivers require certification. Receive-only devices operating between 30 MHz and 960 MHz are subject to either certification or a manufacturer’s declaration of conformity, with all other receive-only devices exempt from the technical requirements. Prior to marketing in Canada, Class I transmitters, receivers and transceivers require certification. Class II devices are required to meet the appropriate technical requirements but are exempt from certification requirements. Certification is a procedure where the manufacturer submits test data and technical information to a certification body and receives a certificate or grant of equipment authorization upon successful completion of the certification body’s review of the submitted documents. Once the equipment authorization has been obtained, the label indicating compliance must be attached to all identical units, which are subsequently manufactured. Maintenance of compliance is the responsibility of the manufacturer. Any modification of the product which may result in increased emissions should be checked to ensure compliance has been maintained (i.e., printed circuit board layout changes, different line filter, different power supply, harnessing or I/O cable changes, etc.).
STATEMENT OF COMPLIANCE
The tested sample of Summit Data Communications model SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors complied with the requirements of the following regulations:
Industry Canada RSS-Gen Issue 2 RSS 210 Issue 7 “Low-power Licence-exempt Radiocommunication Devices (All Frequency Bands): Category I Equipment” FCC Part 15 Subpart C
Maintenance of compliance is the responsibility of the manufacturer. Any modification of the product which may result in increased emissions should be checked to ensure compliance has been maintained (i.e., printed circuit board layout changes, different line filter, different power supply, harnessing or I/O cable changes, etc.).
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TEST RESULTS SUMMARY
DIGITAL TRANSMISSION SYSTEMS (2400 – 2483.5MHz)
FCC Rule Part
RSS Rule Part Description Measured Value /
Comments Limit / Requirement Result
15.247(a) RSS 210 A8.2 Digital Modulation Systems uses OFDM
/ DSSS techniques - Complies
15.247 (a) (2)
RSS 210 A8.2 (1) 6dB Bandwidth 16.5 MHz - 802.11g
9.1 MHz – 802.11b >500kHz Complies
RSP100 99% Bandwidth 17.2 MHz – 802.11g 12.8 MHz – 802.11b Information only Complies
15.247 (b) (3)
RSS 210 A8.2 (4)
Output Power (multipoint systems)
24.1 dBm (0.258 Watts)
EIRP = 0.619 W Note
1
1Watt, EIRP limited to 4 Watts. Complies
15.247(d) RSS 210 A8.2 (2)
Power Spectral Density 7.5 dBm / MHz 8dBm/3kHz Complies
15.247(c) RSS 210 A8.5
Antenna Port Spurious Emissions 30MHz – 25 GHz
All emissions < -20dBc < -20dBc Complies
15.247(c) / 15.209
RSS 210 A8.5
Radiated Spurious Emissions
30MHz – 25 GHz
53.8dBµV/m (489.8µV/m) @
4924.0MHz
15.207 in restricted bands, all others
< -20dBc
Complies (-0.2dB)
Note 1: EIRP calculated using antenna gain of 3.8 dBi for the highest EIRP multi-point system.
DIGITAL TRANSMISSION SYSTEMS (5725 –5850 MHz)
FCC Rule Part
RSS Rule Part Description Measured Value /
Comments Limit / Requirement Result
15.247(a) RSS 210 A8.2 Digital Modulation Systems uses OFDM
techniques
System must utilize a digital
transmission technology
Complies
15.247 (a) (2)
RSS 210 A8.2 (1) 6dB Bandwidth 16.4 MHz >500kHz Complies
RSP100 99% Bandwidth 17.5 MHz Information only Complies
15.247 (b) (3) 15.247 Output Power
(multipoint systems)
15.6 dBm (0.036 Watts)
EIRP = 0.115 W Note
1
1Watt, EIRP limited to 4 Watts. Complies
15.247(d) RSS 210 A8.2 (2)
Power Spectral Density -8.3 dBm / MHz Maximum permitted
is 8dBm/3kHz Complies
15.247(c) RSS 210 A8.5
Antenna Port Spurious Emissions –
30MHz – 40 GHz
All spurious emissions < -20dBc < -20dBc Complies
15.247(c) / 15.209
RSS 210 A8.5
Table 2, 3
Radiated Spurious Emissions
30MHz – 40 GHz
52.1dBµV/m (402.7µV/m) @
11489.9MHz
15.207 in restricted bands, all others
< -20dBc
Complies (-1.9 dB)
Note 1: EIRP calculated using antenna gain of 5 dBi for the highest EIRP multi-point system.
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GENERAL REQUIREMENTS APPLICABLE TO ALL BANDS
FCC Rule Part
RSS Rule part Description Measured Value /
Comments Limit /
Requirement Result
(margin)
15.203 - RF Connector The radio module uses a unique connector type Complies
15.109 RSS GEN
7.2.3 Table 1
Receiver spurious emissions
41.4dBµV/m (117.5µV/m) @
2187.3MHz
Complies (- 12.6
dB)
15.207 RSS GEN Table 2
AC Conducted Emissions 55.6dBµV @ 0.167MHz Refer to
standard Complies (-9.5dB)
15.247 (b) (5) RSS 102 RF Exposure Requirements
Refer to MPE calculations in Exhibit
11, RSS 102 declaration and User Manual
statements.
Refer to OET 65, FCC Part 1 and RSS 102
Complies
RSP 100
RSS GEN 7.1.5
User Manual
Statement required
regarding non-interference
RSP 100
RSS GEN 7.1.5
User Manual
Statement required
regarding detachable
antenna
MEASUREMENT UNCERTAINTIES
ISO/IEC 17025 requires that an estimate of the measurement uncertainties associated with the emissions test results be included in the report. The measurement uncertainties given below are based on a 95% confidence level and were calculated in accordance with UKAS document LAB 34.
Measurement Type Frequency Range Calculated Uncertainty (MHz) (dB)
______________________________________________________________
Conducted Emissions 0.15 to 30 ± 2.4 Radiated Emissions 0.015 to 30 ± 3.0 Radiated Emissions 30 to 1000 ± 3.6 Radiated Emissions 1000 to 40000 ± 6.0
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EQUIPMENT UNDER TEST (EUT) DETAILS
GENERAL
The Summit Data Communications model SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors is an 802.11a/g compliant wireless LAN radio module which is designed to provide wireless local area networking connectivity. Normally, the EUT would be embedded in various types of mobile and stationary computing devices such as handheld and vehicle mounted data terminals during operation. The EUT was, therefore, placed on a tabletop during emissions testing to simulate the end user environment. The electrical rating of the EUT is 3.3 VDC +/- 5% With typical power consumption of 400 mA (1320mW) while in transmit mode, 180 mA (594mW) while in receive mode and 10 mA (33 mW) while in standby mode. The sample was received on November 19, 2007 and tested on November 19, Novembeer 27, December 14 andDecember 19, 2007 and Janaury 14, January 15, January 25, January 28, February 28, and March 4, 2008. The EUT consisted of the following component(s):
Manufacturer Model Description Serial Number FCC ID Summit Data
Communications SDC-CF10AG Compact Flash
Module - TWG-
SDCCF10AG
Note: The EUT was tested using an extender card that allowed for the card to be outside of the host system.
ANTENNA SYSTEM
There were three antennas included in the testing: Laird Centurion, m/n NanoBlade, pcb antenna, 3.8dBi @ 2.45GHz, 5.1dBi @ 5.25GHz, 4.5dBi @ 5.8GHz Volex, p/n VLX-51004-A, Omni, 2.3dBi @ 2.4GHz, 1.9dBi @ 5GHz Larson, p/n R380.500.314, Omni, 1.6dBi @ 2.4GHz, 5dBi @ 5GHz Note: The Volex Omni was used in the 2.4GHz band and the Larson Omni was used in the 5GHz bands. The Laird pcb antenna was also tested for both 2.4GHz and 5GHz.
ENCLOSURE
The EUT does not have an enclosure as it is designed to be installed within the enclosure of a host system.
MODIFICATIONS
The EUT did not require modifications during testing in order to comply with emissions specifications.
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SUPPORT EQUIPMENT
The following equipment was used as local support equipment for emissions testing:
Manufacturer Model Description Serial Number FCC ID Hewlett Packard iPAQ Handheld Computer - -
EUT INTERFACE PORTS
The I/O cabling configuration during emissions testing was as follows:
Cable(s) Port Connected To Description Shielded or Unshielded Length(m)iPAQ Power AC Mains 2wire Unshielded 1.5 Flash Module iPAQ Module Port - - -
EUT OPERATION
During emissions testing the EUT was configured to transmit at the Low, Middle, and High Channel. Note, the radio was unable to transmit continuously due to limitations of the host device.
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TEST SITE
GENERAL INFORMATION
Final test measurements were taken on November 19, Novembeer 27, December 14 and December 19, 2007 and Janaury 14, January 15, January 25 and January 28, 2008 at the Elliott Laboratories Open Area Test Site OATS located at 684 West Maude Avenue, Sunnyvale, California. Pursuant to section 2.948 of the FCC’s Rules and section 3.3 of RSP-100, construction, calibration, and equipment data has been filed with the Commission. ANSI C63.4:2003 recommends that ambient noise at the test site be at least 6 dB below the allowable limits. Ambient levels are below this requirement with the exception of predictable local TV, radio, and mobile communications traffic. The test site contains separate areas for radiated and conducted emissions testing. Considerable engineering effort has been expended to ensure that the facilities conform to all pertinent requirements of ANSI C63.4:2003.
CONDUCTED EMISSIONS CONSIDERATIONS
Conducted emissions testing is performed in conformance with ANSI C63.4:2003. Measurements are made with the EUT connected to the public power network through a nominal, standardized RF impedance, which is provided by a line impedance stabilization network, known as a LISN. A LISN is inserted in series with each current-carrying conductor in the EUT power cord.
RADIATED EMISSIONS CONSIDERATIONS
The FCC has determined that radiation measurements made in a shielded enclosure are not suitable for determining levels of radiated emissions. Radiated measurements are performed in an open field environment or in a semi-anechoic chamber. The test sites are maintained free of conductive objects within the CISPR defined elliptical area incorporated in ANSI C63.4:2003 guidelines and meet the Normalized Site Attenuation (NSA) requirements of ANSI C63.4:2003.
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MEASUREMENT INSTRUMENTATION
RECEIVER SYSTEM
An EMI receiver as specified in CISPR 16-1 is used for emissions measurements. The receivers used can measure over the frequency range of 9 kHz up to 2000 MHz. These receivers allow both ease of measurement and high accuracy to be achieved. The receivers have Peak, Average, and CISPR (Quasi-peak) detectors built into their design so no external adapters are necessary. The receiver automatically sets the required bandwidth for the CISPR detector used during measurements. If the repetition frequency of the signal being measured is below 20Hz, peak measurements are made in lieu of Quasi-Peak measurements. For measurements above the frequency range of the receivers, a spectrum analyzer is utilized because it provides visibility of the entire spectrum along with the precision and versatility required to support engineering analysis. Average measurements above 1000MHz are performed on the spectrum analyzer using the linear-average method with a resolution bandwidth of 1 MHz and a video bandwidth of 10 Hz, unless the signal is pulsed in which case the average (or video) bandwidth of the measuring instrument is reduced to onset of pulse desensitization and then increased.
INSTRUMENT CONTROL COMPUTER
The receivers utilize either a Rohde & Schwarz EZM Spectrum Monitor/Controller or contain an internal Spectrum Monitor/Controller to view and convert the receiver measurements to the field strength at an antenna or voltage developed at the LISN measurement port, which is then compared directly with the appropriate specification limit. This provides faster, more accurate readings by performing the conversions described under Sample Calculations within the Test Procedures section of this report. Results are printed in a graphic and/or tabular format, as appropriate. A personal computer is used to record all measurements made with the receivers. The Spectrum Monitor provides a visual display of the signal being measured. In addition, the controller or a personal computer run automated data collection programs which control the receivers. This provides added accuracy since all site correction factors, such as cable loss and antenna factors are added automatically.
LINE IMPEDANCE STABILIZATION NETWORK (LISN)
Line conducted measurements utilize a fifty microhenry Line Impedance Stabilization Network as the monitoring point. The LISN used also contains a 250 uH CISPR adapter. This network provides for calibrated radio frequency noise measurements by the design of the internal low pass and high pass filters on the EUT and measurement ports, respectively.
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FILTERS/ATTENUATORS
External filters and precision attenuators are often connected between the receiving antenna or LISN and the receiver. This eliminates saturation effects and non-linear operation due to high amplitude transient events.
ANTENNAS
A loop antenna is used below 30 MHz. For the measurement range 30 MHz to 1000 MHz either a combination of a biconical antenna and a log periodic or a bi-log antenna is used. Above 1000 MHz, horn antennas are used. The antenna calibration factors to convert the received voltage to an electric field strength are included with appropriate cable loss and amplifier gain factors to determine an overall site factor, which is then programmed into the test receivers or incorporated into the test software.
ANTENNA MAST AND EQUIPMENT TURNTABLE
The antennas used to measure the radiated electric field strength are mounted on a non-conductive antenna mast equipped with a motor-drive to vary the antenna height. Measurements below 30 MHz are made with the loop antenna at a fixed height of 1m above the ground plane. ANSI C63.4:2003 specifies that the test height above ground for table mounted devices shall be 80 centimeters. Floor mounted equipment shall be placed on the ground plane if the device is normally used on a conductive floor or separated from the ground plane by insulating material from 3 to 12 mm if the device is normally used on a non-conductive floor. During radiated measurements, the EUT is positioned on a motorized turntable in conformance with this requirement.
INSTRUMENT CALIBRATION
All test equipment is regularly checked to ensure that performance is maintained in accordance with the manufacturer's specifications. All antennas are calibrated at regular intervals with respect to tuned half-wave dipoles. An exhibit of this report contains the list of test equipment used and calibration information.
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TEST PROCEDURES
EUT AND CABLE PLACEMENT
The regulations require that interconnecting cables be connected to the available ports of the unit and that the placement of the unit and the attached cables simulate the worst case orientation that can be expected from a typical installation, so far as practicable. To this end, the position of the unit and associated cabling is varied within the guidelines of ANSI C63.4:2003, and the worst-case orientation is used for final measurements.
CONDUCTED EMISSIONS
Conducted emissions are measured at the plug end of the power cord supplied with the EUT. Excess power cord length is wrapped in a bundle between 30 and 40 centimeters in length near the center of the cord. Preliminary measurements are made to determine the highest amplitude emission relative to the specification limit for all the modes of operation. Placement of system components and varying of cable positions are performed in each mode. A final peak mode scan is then performed in the position and mode for which the highest emission was noted on all current carrying conductors of the power cord.
0.4m
0.8m
LISN AE
LISN EUT
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RADIATED EMISSIONS
A preliminary scan of the radiated emissions is performed in which all significant EUT frequencies are identified with the system in a nominal configuration. At least two scans are performed, one scan for each antenna polarization (horizontal and vertical; loop parallel and perpendicular to the EUT). During the preliminary scans, the EUT is rotated through 360˚, the antenna height is varied (for measurements above 30 MHz) and cable positions are varied to determine the highest emission relative to the limit. Preliminary scans may be performed in a fully anechoic chamber for the purposes of identifying the frequencies of the highest emissions from the EUT. A speaker is provided in the receiver to aid in discriminating between EUT and ambient emissions. Other methods used during the preliminary scan for EUT emissions involve scanning with near field magnetic loops, monitoring I/O cables with RF current clamps, and cycling power to the EUT. Final maximization is a phase in which the highest amplitude emissions identified in the spectral search are viewed while the EUT azimuth angle is varied from 0 to 360 degrees relative to the receiving antenna. The azimuth, which results in the highest emission is then maintained while varying the antenna height from one to four meters (for measurements above 30 MHz, measurements below 30 MHz are made with the loop antenna at a fixed height of 1m). The result is the identification of the highest amplitude for each of the highest peaks. Each recorded level is corrected in the receiver using appropriate factors for cables, connectors, antennas, and preamplifier gain. When testing above 18 GHz, the receive antenna is located at 1meter from the EUT and the antenna height is restricted to a maximum of 2.5 meters.
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Typical Test Configuration for Radiated Field Strength Measurements
AC Outlets (flush-mounted)
SIDE VIEW
REAR VIEW
0.8m
0.4m
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Test Configuration for Radiated Field Strength Measurements
OATS- Plan and Side Views
The ground plane extends beyond the ellipse defined in CISPR 16 / CISPR 22 / ANSI C63.4 and is large enough to accommodate test distances (d) of 3m and 10m. Refer to the test data tables for the actual measurement distance.
d
EUT
Antenna
EUT d
0.8m
Antenna height range 1 to 4 m
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Test Configuration for Radiated Field Strength Measurements
Semi-Anechoic Chamber, Plan and Side Views
BANDWIDTH MEASUREMENTS
The 6dB, 20dB and/or 26dB signal bandwidth is measured in using the bandwidths recommended by ANSI C63.4. When required, the 99% bandwidth is measured using the methods detailed in RSS GEN.
The anechoic materials on the walls and ceiling ensure compliance with the normalized site attenuation requirements of CISPR 16 / CISPR 22 / ANSI C63.4 for an alternate test site at the measurement distances used. Floor-standing equipment is placed on the floor with insulating supports between the unit and the ground plane.
d
EUT
Antenna
EUT d
0.8m
Antenna height range 1 to 4 m
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SPECIFICATION LIMITS AND SAMPLE CALCULATIONS
The limits for conducted emissions are given in units of microvolts, and the limits for radiated emissions are given in units of microvolts per meter at a specified test distance. Data is measured in the logarithmic form of decibels relative to one microvolt, or dB microvolts (dBuV). For radiated emissions, the measured data is converted to the field strength at the antenna in dB microvolts per meter (dBuV/m). The results are then converted to the linear forms of uV and uV/m for comparison to published specifications. For reference, converting the specification limits from linear to decibel form is accomplished by taking the base ten logarithm, then multiplying by 20. These limits in both linear and logarithmic form are as follows:
CONDUCTED EMISSIONS SPECIFICATION LIMITS: FCC 15.207; FCC 15.107(a), RSS GEN
The table below shows the limits for the emissions on the AC power line from an intentional radiator and a receiver.
Frequency (MHz)
Average Limit
(dBuV)
Quasi Peak Limit
(dBuV)
0.150 to 0.500
Linear decrease on logarithmic frequency
axis between 56.0 and 46.0
Linear decrease on logarithmic frequency
axis between 66.0 and 56.0
0.500 to 5.000 46.0 56.0 5.000 to 30.000 50.0 60.0
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GENERAL TRANSMITTER RADIATED EMISSIONS SPECIFICATION LIMITS
The table below shows the limits for the spurious emissions from transmitters that fall in restricted bands1 (with the exception of transmitters operating under FCC Part 15 Subpart D and RSS 210 Annex 9), the limits for all emissions from a low power device operating under the general rules of RSS 310 (tables 3 and 4), RSS 210 (table 2) and FCC Part 15 Subpart C section 15.209.
Frequency
Range (MHz)
Limit (uV/m)
Limit (dBuV/m @ 3m)
0.009-0.490 2400/FKHz @ 300m 67.6-20*log10(FKHz) @ 300m
0.490-1.705 24000/FKHz @ 30m 87.6-20*log10(FKHz) @ 30m
1.705 to 30 30 @ 30m 29.5 @ 30m
30 to 88 100 @ 3m 40 @ 3m
88 to 216 150 @ 3m 43.5 @ 3m
216 to 960 200 @ 3m 46.0 @ 3m
Above 960 500 @ 3m 54.0 @ 3m
RECEIVER RADIATED SPURIOUS EMISSIONS SPECIFICATION LIMITS
The table below shows the limits for the spurious emissions from receivers as detailed in FCC Part 15.109, RSS 210 Table 2, RSS GEN Table 1 and RSS 310 Table 3. Note that receivers operating outside of the frequency range 30 MHz – 960 MHz are exempt from the requirements of 15.109.
Frequency
Range (MHz)
Limit (uV/m @ 3m)
Limit (dBuV/m @ 3m)
30 to 88 100 40
88 to 216 150 43.5
216 to 960 200 46.0
Above 960 500 54.0
1 The restricted bands are detailed in FCC 15.203, RSS 210 Table 1 and RSS 310 Table 2
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OUTPUT POWER LIMITS – DIGITAL TRANSMISSION SYSTEMS
The table below shows the limits for output power and output power density. Where the signal bandwidth is less than 20 MHz the maximum output power is reduced to the power spectral density limit plus 10 times the log of the bandwidth (in MHz).
Operating Frequency (MHz) Output Power Power Spectral Density
902 – 928 1 Watt (30 dBm) 8 dBm/3kHz 2400 – 2483.5 1 Watt (30 dBm) 8 dBm/3kHz 5725 – 5850 1 Watt (30 dBm) 8 dBm/3kHz
The maximum permitted output power is reduced by 1dB for every dB the antenna gain exceeds 6dBi. Fixed point-to-point applications using the 5725 – 5850 MHz band are not subject to this restriction.
TRANSMIT MODE SPURIOUS RADIATED EMISSIONS LIMITS – FHSS and DTS SYSTEMS
The limits for unwanted (spurious) emissions from the transmitter falling in the restricted bands are those specified in the general limits sections of FCC Part 15 and RSS 210. All other unwanted (spurious) emissions shall be at least 20dB below the level of the highest in-band signal level (30dB if the power is measured using the sample detector/power averaging method).
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SAMPLE CALCULATIONS - CONDUCTED EMISSIONS
Receiver readings are compared directly to the conducted emissions specification limit (decibel form) as follows:
Rr - S = M
where: Rr = Receiver Reading in dBuV
S = Specification Limit in dBuV M = Margin to Specification in +/- dB
SAMPLE CALCULATIONS - RADIATED EMISSIONS
Receiver readings are compared directly to the specification limit (decibel form). The receiver internally corrects for cable loss, preamplifier gain, and antenna factor. The calculations are in the reverse direction of the actual signal flow, thus cable loss is added and the amplifier gain is subtracted. The Antenna Factor converts the voltage at the antenna coaxial connector to the field strength at the antenna elements. A distance factor, when used for electric field measurements above 30MHz, is calculated by using the following formula:
Fd = 20*LOG10 (Dm/Ds)
where: Fd = Distance Factor in dB
Dm = Measurement Distance in meters
Ds = Specification Distance in meters
For electric field measurements below 30MHz the extrapolation factor is either determined by making measurements at multiple distances or a theoretical value is calculated using the formula:
Fd = 40*LOG10 (Dm/Ds)
Measurement Distance is the distance at which the measurements were taken and Specification Distance is the distance at which the specification limits are based. The antenna factor converts the voltage at the antenna coaxial connector to the field strength at the antenna elements.
Elliott Laboratories, Inc. -- EMC Department Test Report Report Date: March 5, 2008
File: R70599 Rev 1 Page 23 of 23
The margin of a given emission peak relative to the limit is calculated as follows: Rc = Rr + Fd
and M = Rc - Ls
where: Rr = Receiver Reading in dBuV/m
Fd = Distance Factor in dB
Rc = Corrected Reading in dBuV/m
Ls = Specification Limit in dBuV/m
M = Margin in dB Relative to Spec SAMPLE CALCULATIONS - FIELD STRENGTH TO EIRP CONVERSION
Where the radiated electric field strength is expressed in terms of the equivalent isotropic radiated power (eirp), or where a field strength measurement of output power is made in lieu of a direct measurement, the following formula is used to convert between eirp and field strength at a distance of 3m from the equipment under test: E = 1000000 √ 30 P microvolts per meter 3
where P is the eirp (Watts)
Elliott Laboratories, Inc. -- EMC Department Test Report Report Date: March 5, 2008
File: R70599 Rev 1 Appendix Page 1 of 10
EXHIBIT 1: Test Equipment Calibration Data
3 Pages
Engineer: Mehran BirganiManufacturer Description Model # Asset # Cal DueHewlett Packard Microwave Preamplifier, 1-26.5GHz 8449B 870 15-Nov-07EMCO Antenna, Horn, 1-18 GHz (SA40-Red) 3115 1142 07-Jun-08Hewlett Packard High Pass filter, 3.5 GHz (Blu System) P/N 84300-80038 (84125C) 1391 29-May-08Hewlett Packard SpecAn 9 kHz - 40 GHz, FMT (SA40) Blue 8564E (84125C) 1393 17-Jan-08
Engineer: jcaizziManufacturer Description Model # Asset # Cal DueHewlett Packard Microwave Preamplifier, 1-26.5GHz 8449B 870 15-Nov-07EMCO Antenna, Horn, 1-18 GHz (SA40-Red) 3115 1142 07-Jun-08Hewlett Packard High Pass filter, 3.5 GHz (Blu System) P/N 84300-80038 (84125C) 1391 29-May-08Hewlett Packard SpecAn 9 kHz - 40 GHz, FMT (SA40) Blue 8564E (84125C) 1393 17-Jan-08
Engineer: Rafael VarelasManufacturer Description Model # Asset # Cal DueEMCO Antenna, Horn, 1-18 GHz 3115 487 24-May-08Hewlett Packard Microwave Preamplifier, 1-26.5GHz 8449B 870 15-Nov-07Hewlett Packard EMC Spectrum Analyzer, 9 KHz - 22 GHz 8593EM 1319 18-May-08Hewlett Packard High Pass filter, 3.5 GHz (Blu System) P/N 84300-80038 (84125C) 1391 29-May-08
Engineer: Joseph CadigalManufacturer Description Model # Asset # Cal DueEMCO Antenna, Horn, 1-18 GHz 3115 487 24-May-08Hewlett Packard SpecAn 9 kHz - 40 GHz, FMT (SA40) Blue 8564E (84125C) 1393 17-Jan-08Hewlett Packard Microwave Preamplifier, 1-26.5GHz 8449B 1780 06-Nov-08
Engineer: skhushzadManufacturer Description Model # Asset # Cal DueHewlett Packard SpecAn 30 Hz -40 GHz, SV (SA40) Red 8564E (84125C) 1148 24-Aug-08
Engineer: Suhaila KhushzadManufacturer Description Model # Asset # Cal DueEMCO Antenna, Horn, 1-18 GHz 3115 487 24-May-08Hewlett Packard Microwave Preamplifier, 1-26.5GHz 8449B 870 08-Nov-08Hewlett Packard SpecAn 30 Hz -40 GHz, SV (SA40) Red 8564E (84125C) 1148 24-Aug-08Rohde & Schwarz Test Receiver, 0.009-2750 MHz ESN 1332 21-Dec-07EMCO Log Periodic Antenna, 0.2-2 GHz 3148 1404 30-Mar-08EMCO Biconical Antenna, 30-300 MHz 3110B 1497 03-Jul-08
Engineer: Suhaila KhushzadManufacturer Description Model # Asset # Cal DueEMCO Antenna, Horn, 1-18 GHz (SA40-Red) 3115 1142 07-Jun-08Hewlett Packard SpecAn 9 kHz - 40 GHz, FMT (SA40) Blue 8564E (84125C) 1393 17-Jan-08Hewlett Packard Microwave Preamplifier, 1-26.5GHz 8449B 1780 06-Nov-08
Engineer: Mehran BirganiManufacturer Description Model # Asset # Cal DueEMCO Antenna, Horn, 1-18 GHz 3115 487 24-May-08Hewlett Packard Microwave Preamplifier, 1-26.5GHz 8449B 870 08-Nov-08Hewlett Packard SpecAn 30 Hz -40 GHz, SV (SA40) Red 8564E (84125C) 1148 24-Aug-08EMCO Antenna, Horn, 18-26.5 GHz (SA40-Red) 3160-09 (84125C) 1150 05-Nov-08EMCO Antenna, Horn, 26.5-40 GHz (SA40-Red) 3160-10 (84125C) 1151 05-Nov-08Hewlett Packard High Pass filter, 8.2 GHz (Red System) P/N 84300-80039 (84125C) 1152 15-Oct-08
Radio Antenna Port (Power and Spurious Emissions), 26-Nov-07
Radio Spurious Emissions, 27-Nov-07
Radiated Emissions, 30 - 40,000 MHz, 12-Dec-07
Radiated Emissions, 30 - 26,500 MHz, 11-Oct-07
Radiated Emissions, 30 - 26,500 MHz, 12-Oct-07
Radiated Emissions, 30 - 18,000 MHz, 31-Oct-07
Radiated Emissions, 30 - 12,000 MHz, 19-Nov-07
Radio Spurious Emissions, 11-Dec-07
File: T69413_FCC_DTS Test Equipment (Emissions) 1 of 3
Engineer: Suhaila KhushzadManufacturer Description Model # Asset # Cal DueEMCO Antenna, Horn, 1-18 GHz (SA40-Red) 3115 1142 07-Jun-08Hewlett Packard Microwave Preamplifier, 1-26.5GHz 8449B 1780 06-Nov-08Hewlett Packard SpecAn 9 kHz - 40 GHz, FMT (SA40) Blue 8564E (84125C) 1393 17-Jan-08
Engineer: Suhaila KhushzadManufacturer Description Model # Asset # Cal DueEMCO Antenna, Horn, 1-18GHz 3115 868 26-Apr-08Hewlett Packard Microwave Preamplifier, 1-26.5GHz 8449B 870 08-Nov-08Hewlett Packard SpecAn 30 Hz -40 GHz, SV (SA40) Red 8564E (84125C) 1148 24-Aug-08
Engineer: Mehran BirganiManufacturer Description Model # Asset # Cal DueEMCO Antenna, Horn, 1-18GHz 3115 868 26-Apr-08Hewlett Packard Microwave Preamplifier, 1-26.5GHz 8449B 870 08-Nov-08Hewlett Packard SpecAn 30 Hz -40 GHz, SV (SA40) Red 8564E (84125C) 1148 24-Aug-08
Engineer: Rafael VarelasManufacturer Description Model # Asset # Cal DueElliott Laboratories LISN, FCC / CISPR LISN-4, OATS 362 18-Jul-08Rohde& Schwarz Pulse Limiter ESH3 Z2 812 05-Feb-08Hewlett Packard SpecAn 30 Hz -40 GHz, SV (SA40) Red 8564E (84125C) 1148 24-Aug-08Rohde & Schwarz Test Receiver, 9 kHz-2750 MHz ESCS 30 1337 21-Sep-08
Engineer: Suhaila KhushzadManufacturer Description Model # Asset # Cal DueEMCO Antenna, Horn, 1-18 GHz 3115 487 24-May-08Hewlett Packard SpecAn 30 Hz -40 GHz, SV (SA40) Red 8564E (84125C) 1148 24-Aug-08Hewlett Packard Microwave Preamplifier, 1-26.5GHz 8449B 1780 06-Nov-08
Engineer: Suhaila KhushzadManufacturer Description Model # Asset # Cal DueEMCO Antenna, Horn, 1-18 GHz 3115 487 24-May-08Hewlett Packard EMC Spectrum Analyzer, 9 kHz - 6.5 GHz 8595EM 780 09-Oct-08Hewlett Packard SpecAn 30 Hz -40 GHz, SV (SA40) Red 8564E (84125C) 1148 24-Aug-08
Engineer: jcaizziManufacturer Description Model # Asset # Cal DueHewlett Packard EMC Spectrum Analyzer, 9 kHz - 6.5 GHz 8595EM 787 21-Feb-08
Engineer: jcaizziManufacturer Description Model # Asset # Cal DueEMCO Antenna, Horn, 1-18 GHz 3115 487 24-May-08Hewlett Packard Microwave Preamplifier, 1-26.5GHz 8449B 870 08-Nov-08Hewlett Packard SpecAn 30 Hz -40 GHz, SV (SA40) Red 8564E (84125C) 1148 24-Aug-08Hewlett Packard High Pass filter, 8.2 GHz P/N 84300-80039 1156 29-May-08
Engineer: Mehran BirganiManufacturer Description Model # Asset # Cal DueRohde & Schwarz EMI Test Receiver, 20 Hz-7 GHz ESIB7 1630 25-Jan-08
Radiated Emissions, 30 - 16,000 MHz, 20-Dec-07
Radio Spurious Emissions, 19-Dec-07
Radio Spurious Emissions, 14-Dec-07
Radio Antenna Port (Power and Spurious Emissions), 24-Jan-08
Radiated Emissions, 30 - 26,500 MHz, 18-Jan-08
Radio Antenna Port (Power and Spurious Emissions), 14-Jan-08
Radio Spurious Emissions, 10-Jan-08
Radio Antenna Port (Power and Spurious Emissions), 07-Jan-08
Conducted Emissions - AC Power Ports, 21-Dec-07
File: T69413_FCC_DTS Test Equipment (Emissions) 2 of 3
Engineer: Peter SalesManufacturer Description Model # Asset # Cal DueRohde & Schwarz Test Receiver, 0.009-30 MHz ESH3 215 29-Mar-08Elliott Laboratories LISN, FCC / CISPR LISN-3, OATS 304 18-Jul-08Hewlett Packard EMC Spectrum Analyzer, 9 KHz-26.5 GHz 8593EM 1141 29-Nov-08Rohde& Schwarz Pulse Limiter ESH3 Z2 1398 05-Feb-08
Engineer: Pete SalesManufacturer Description Model # Asset # Cal DueEMCO Antenna, Horn, 1-18 GHz 3115 487 24-May-08Hewlett Packard Microwave Preamplifier, 1-26.5GHz 8449B 870 08-Nov-08Hewlett Packard Head (Inc W1-W4, 1143, 1144) Red 84125C 1145 16-Nov-08
Hewlett Packard Spectrum Analyzer 30 Hz -40 GHz, SV (SA40) Red 8564E (84125C) 1148 24-Aug-08
EMCO Antenna, Horn, 18-26.5 GHz (SA40-Red) 3160-09 (84125C) 1150 05-Nov-08EMCO Antenna, Horn, 26.5-40 GHz (SA40-Red) 3160-10 (84125C) 1151 05-Nov-08
Radiated Emissions, 1000 - 40000 MHz, 04-Mar-08
Conducted Emissions - AC Power Ports, 28-Jan-08
File: T69413_FCC_DTS Test Equipment (Emissions) 3 of 3
Elliott Laboratories, Inc. -- EMC Department Test Report Report Date: March 5, 2008
File: R70599 Rev 1 Appendix Page 2 of 10
EXHIBIT 2: Test Measurement Data
79 Pages
EMC Test Data
SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
Date of Last Test: 3/27/2008
EMC Test DataFor The
Summit Data CommunicationsModel
Immunity Standard(s): - Environment: -Emissions Standard(s): 15.247 / 15.E / RSS-210 Class: -
Contact: Ron Seide
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
Client: Summit Data Communications Job Number: J68959
T69413_FCC_DTS.xls Cover Page 1 of 79
EMC Test Data
There were three antennas included in the testing:Laird Centurion, m/n NanoBlade, pcb antenna, 3.8dBi @ 2.45GHz, 5.1dBi @ 5.25GHz, 4.5dBi @ 5.8GHzVolex, p/n VLX-51004-A, Omni, 2.3dBi @ 2.4GHz, 1.9dBi @ 5GHzLarson, p/n R380.500.314, Omni, 1.6dBi @ 2.4GHz, 5dBi @ 5GHz
Note: The Volex Omni was used in the 2.4GHz band and the Larson Omni was used in the 5GHz bands. The Laird pcb antenna was also tested for both 2.4GHz and 5GHz.
The antenna connects to the EUT via a non-standard antenna connector, thereby meeting the requirements of FCC 15.203.
EUT EnclosureThe EUT does not have an enclosure as it is designed to be installed within the enclosure of a host computer or system.
TWG-SDCCF10AG
EUT Antenna (Intentional Radiators Only)
Summit Data Communications
SDC-CF10AG 802.11a/g Compact Flash Module
with Antenna Connectors
Compact Flash Module TBP
The EUT is an 802.11a/g compliant wireless LAN radio module which is designed to provide wireless local area networking connectivity. Normally, the EUT would be embedded in various types of mobile and stationary computing devices such as handheld and vehicle mounted data terminals during operation. The EUT was, therefore, placed on a tabletop during emissions testing to simulate the end user environment. The electrical rating of the EUT is 3.3 VDC +/- 5% With typical power consumption of 400 mA (1320mW) while in transmit mode, 180 mA (594mW) while in receive mode and 10 mA (33 mW) while in standby mode.
Equipment Under TestManufacturer Model Description Serial Number FCC ID
EUT INFORMATIONThe following information was collected during the test session(s).
General Description
Immunity Standard(s): - Environment: -
Contact: Ron SeideEmissions Standard(s): 15.247 / 15.E / RSS-210 Class: -
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manger: Dean Eriksen
Client: Summit Data Communications Job Number: J68959
T69413_FCC_DTS.xls EUT Description Page 2 of 79
EMC Test Data
EUT Operation During Emissions TestsDuring emissions testing the EUT was configured to transmit at the Low, Middle, and High Channel
Flash Module iPAQ Module Port - -Unshielded 1.5
-
iPAQ Handheld Computer - -
iPAQ Power AC Mains 2wire
Cabling and PortsPort Connected To Cable(s)
Description Shielded or Unshielded Length(m)
Remote Support EquipmentManufacturer Model Description Serial Number FCC ID
Hewlett Packard
FCC ID- - - - -
Manufacturer Model Description Serial Number
Test Configuration #1The following information was collected during the test session(s).
Local Support Equipment
Immunity Standard(s): - Environment: -Emissions Standard(s): 15.247 / 15.E / RSS-210 Class: -
Contact: Ron Seide
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manger: Dean Eriksen
Client: Summit Data Communications Job Number: J68959
T69413_FCC_DTS.xls Test Configuration #1 Page 3 of 79
EMC Test DataClient:
Contact:Standard:
Test Specific Details
General Test Configuration
Ambient Conditions: 7 °C78 %
Summary of Results
Run #1 Channel Pass/Fail
1a 149 Pass
1b 157 Pass
1c 161 Pass
Note:
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna ConnectorsT-Log Number: T69413
Account Manager: Dean EriksenRon Seide15.247 / 15.E / RSS-210 Class: N/A
RSS 210 and FCC 15.247 (DTS) Radiated Spurious Emissions
Objective: The objective of this test session is to perform final qualification testing of the EUT with respect to the specification listed above.
Date of Test: 3/5/2008 Config. Used: 1Test Engineer: Peter Sales Config Change: NoneTest Location: SVOATS #1 EUT Voltage: 120V/60Hz
Modifications Made During TestingNo modifications were made to the EUT during testing
All tests will be performed in data rate of 54Mbps. Average band edge plots are for reference only, final measurements made with VB=1khz to avoid desensitization at 10Hz which reduced signal level by 6.6dB.
The EUT and all local support equipment were located on the turntable for radiated spurious emissions testing.
For radiated emissions testing the measurement antenna was located 3 meters from the EUT.
Temperature:Rel. Humidity:
a Full
TX Mode
Deviations From The StandardNo deviations were made from the requirements of the standard.
Power Setting
a Full
a Full
Margin51.1dBµV/m (358.9µV/m) @
11491.5MHz (-2.9dB)48.8dBµV/m (275.4µV/m) @
11569.7MHz (-5.2dB)48.4dBµV/m (263.0µV/m) @
17415.3MHz (-5.6dB)
T69413_FCC_DTS.xls DTS RE Laird PCB 05-Mar-08 Page 4 of 79
EMC Test DataClient:
Contact:Standard:
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna ConnectorsT-Log Number: T69413
Account Manager: Dean EriksenRon Seide15.247 / 15.E / RSS-210 Class: N/A
Run #1: Tx Radiated Spurious Emissions, 30 - 40000 MHz. 5725-5850 MHz Band
Run #1a: Tx Radiated Spurious Emissions, Low Channel @ 5745 MHz, Full Power settting,Laird PCB Antenna with 5.1dBi, Rate = 54Mbps
Other Spurious Radiated Emissions:Frequency Level Pol Detector Azimuth Height Comments
MHz dBμV/m V/H Limit Margin Pk/QP/Avg degrees meters11491.470 51.1 V 54.0 -2.9 AVG 88 1.511488.750 49.5 H 54.0 -4.5 AVG 105 1.517234.600 48.9 V 54.0 -5.1 AVG 164 1.811491.470 58.6 V 74.0 -15.4 PK 88 1.511488.750 56.4 H 74.0 -17.6 PK 105 1.517234.600 54.3 V 74.0 -19.7 PK 164 1.8
Run #1b: Tx Radiated Spurious Emissions, Middle Channel @ 5785 MHz, Full Power settting,Laird PCB Antenna with 5.1dBi, Rate = 54Mbps
Other Spurious Radiated Emissions:Frequency Level Pol Detector Azimuth Height Comments
MHz dBμV/m V/H Limit Margin Pk/QP/Avg degrees meters11569.670 48.8 V 54.0 -5.2 AVG 66 1.017354.140 48.2 V 54.0 -5.8 AVG 149 1.011569.640 46.8 H 54.0 -7.2 AVG 110 1.611569.670 55.8 V 74.0 -18.2 PK 66 1.017354.140 54.6 V 74.0 -19.4 PK 149 1.011569.640 53.8 H 74.0 -20.2 PK 110 1.6
Run #1c: Tx Radiated Spurious Emissions, High Channel @ 5805 MHz, Full Power settting,Laird PCB Antenna with 5.1dBi, Rate = 54Mbps
Other Spurious Radiated Emissions:Frequency Level Pol Detector Azimuth Height Comments
MHz dBμV/m V/H Limit Margin Pk/QP/Avg degrees meters17415.310 48.4 H 54.0 -5.6 AVG 25 1.011609.510 44.6 H 54.0 -9.4 AVG 67 1.011608.750 44.5 V 54.0 -9.5 AVG 49 1.017415.310 53.4 H 74.0 -20.6 PK 25 1.011608.750 49.4 V 74.0 -24.6 PK 49 1.011609.510 49.1 H 74.0 -24.9 PK 67 1.0
15.209 / 15E
15.209 / 15E
15.209 / 15E
T69413_FCC_DTS.xls DTS RE Laird PCB 05-Mar-08 Page 5 of 79
EMC Test DataClient:
Contact:Standard:
Test Specific Details
General Test Configuration
Ambient Conditions: 7 °C78 %
Summary of Results
Run #1 Channel Pass/Fail
1a 149 Pass
1b 157 Pass
1c 161 Pass
Note:
Full
TX Mode Power Setting
a Full
a Full
a
All tests will be performed in data rate of 54Mbps. Average band edge plots are for reference only, final measurements made with VB=1khz to avoid desensitization at 10Hz which reduced signal level by 6.6dB.
Deviations From The StandardNo deviations were made from the requirements of the standard.
Modifications Made During TestingNo modifications were made to the EUT during testing
The EUT and all local support equipment were located on the turntable for radiated spurious emissions testing.
For radiated emissions testing the measurement antenna was located 3 meters from the EUT.
Temperature:Rel. Humidity:
Test Location: SVOATS #1 EUT Voltage: 120V/60HzTest Engineer: Peter Sales Config Change: None
RSS 210 and FCC 15.247 (DTS) Radiated Spurious Emissions
Objective: The objective of this test session is to perform final qualification testing of the EUT with respect to the specification listed above.
Date of Test: 3/5/2008 Config. Used: 1
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna ConnectorsT-Log Number: T69413
Account Manager: Dean Eriksen
Margin52.1dBµV/m (402.7µV/m) @
11489.9MHz (-1.9dB)48.7dBµV/m (272.3µV/m) @
11569.8MHz (-5.3dB)48.3dBµV/m (260.0µV/m) @
17415.0MHz (-5.7dB)
T69413_FCC_DTS.xls DTS RE Flat Omni 05-Mar-08 Page 6 of 79
EMC Test DataClient:
Contact:Standard:
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna ConnectorsT-Log Number: T69413
Account Manager: Dean Eriksen
Run #1: Tx Radiated Spurious Emissions, 30 - 40000 MHz. 5725-5850 MHz Band
Run #1a: Tx Radiated Spurious Emissions, Low Channel @ 5745 MHz, Full Power settting, Flat Omni Antenna with 5.0dBi, Rate = 54Mbps
Other Spurious Radiated Emissions:Frequency Level Pol Detector Azimuth Height Comments
MHz dBμV/m V/H Limit Margin Pk/QP/Avg degrees meters11489.890 52.1 V 54.0 -1.9 AVG 97 1.617234.660 48.9 V 54.0 -5.1 AVG 165 1.011489.500 45.7 H 54.0 -8.3 AVG 112 1.011489.890 59.7 V 74.0 -14.3 PK 97 1.617234.660 55.2 V 74.0 -18.8 PK 165 1.011489.500 52.2 H 74.0 -21.8 PK 112 1.0
Run #1b: Tx Radiated Spurious Emissions, Middle Channel @ 5785 MHz, Full Power settting, Flat Omni Antenna with 5.0dBi, Rate = 54Mbps
Other Spurious Radiated Emissions:Frequency Level Pol Detector Azimuth Height Comments
MHz dBμV/m V/H Limit Margin Pk/QP/Avg degrees meters11569.750 48.7 V 54.0 -5.3 AVG 59 1.117354.460 48.1 V 54.0 -5.9 AVG 17 1.011568.780 44.6 H 54.0 -9.4 AVG 100 1.011569.750 55.3 V 74.0 -18.7 PK 59 1.117354.460 53.6 V 74.0 -20.4 PK 17 1.011568.780 50.4 H 74.0 -23.6 PK 100 1.0
Run #1c: Tx Radiated Spurious Emissions, High Channel @ 5805 MHz, Full Power settting, Flat Omni Antenna with 5.0dBi, Rate = 54Mbps
Other Spurious Radiated Emissions:Frequency Level Pol Detector Azimuth Height Comments
MHz dBμV/m V/H Limit Margin Pk/QP/Avg degrees meters17414.950 48.3 H 54.0 -5.7 AVG 155 1.011609.670 44.6 H 54.0 -9.4 AVG 281 1.011611.230 44.5 V 54.0 -9.5 AVG 255 1.017414.950 53.9 H 74.0 -20.1 PK 155 1.011611.230 50.0 V 74.0 -24.0 PK 255 1.011609.670 48.9 H 74.0 -25.1 PK 281 1.0
15.209 / 15E
15.209 / 15E
15.209 / 15E
T69413_FCC_DTS.xls DTS RE Flat Omni 05-Mar-08 Page 7 of 79
EMC Test DataClient:
Contact:Standard:
Test Specific Details
General Test Configuration
Ambient Conditions: 4 °C76 %
Summary of Results
ResultPass
Pass
Deviations From The StandardNo deviations were made from the requirements of the standard.
Modifications Made During TestingNo modifications were made to the EUT during testing
2 CE, AC Power,120V/60Hz EN 55022 B 55.6dBµV @ 0.167MHz (-9.5dB)
1 CE, AC Power, 230V/50Hz EN 55022 B 43.1dBµV @ 0.215MHz (-19.9dB)
Run # Test Performed Limit Margin
The EUT was located on a wooden table, 40 cm from a vertical coupling plane and 80cm from the LISN.
Temperature:Rel. Humidity:
Test Location: SVOATS #2 EUT Voltage: 120V/60Hz, 230V/50HzTest Engineer: Peter Sales Config Change: None
Conducted Emissions - Power Ports
Objective: The objective of this test session is to perform final qualification testing of the EUT with respect to the specification listed above.
Date of Test: 1/28/2008 22:01 Config. Used: 1
Ron Seide15.247 / 15.E / RSS-210 Class: -
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna ConnectorsT-Log Number: T69413
Account Manager: Dean Eriksen
T69413_FCC_DTS.xls AC CE 28-Jan-08 Page 8 of 79
EMC Test DataClient:
Contact:Standard:
Ron Seide15.247 / 15.E / RSS-210 Class: -
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna ConnectorsT-Log Number: T69413
Account Manager: Dean Eriksen
Run #1: AC Power Port Conducted Emissions, 0.15 - 30MHz, 230V/50Hz
Run #1: AC Power Port Conducted Emissions, 0.15 - 30MHz, 230V/50Hz Continued Next Page…
T69413_FCC_DTS.xls AC CE 28-Jan-08 Page 9 of 79
EMC Test DataClient:
Contact:Standard:
Ron Seide15.247 / 15.E / RSS-210 Class: -
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna ConnectorsT-Log Number: T69413
Account Manager: Dean Eriksen
Frequency Level AC Detector CommentsMHz dBμV Line Limit Margin QP/Ave0.215 43.1 Line 1 63.0 -19.9 QP0.153 44.9 Neutral 65.8 -20.9 QP0.157 44.5 Neutral 65.6 -21.1 QP0.162 43.9 Neutral 65.4 -21.5 QP0.159 44.0 Line 1 65.5 -21.5 QP0.173 42.5 Line 1 64.8 -22.3 QP0.215 21.0 Line 1 53.0 -32.0 AVG0.157 17.6 Neutral 55.6 -38.0 AVG0.153 17.7 Neutral 55.8 -38.1 AVG0.159 17.2 Line 1 55.5 -38.3 AVG0.162 17.0 Neutral 55.4 -38.4 AVG0.173 16.2 Line 1 54.8 -38.6 AVG
EN55022 B
T69413_FCC_DTS.xls AC CE 28-Jan-08 Page 10 of 79
EMC Test DataClient:
Contact:Standard:
Ron Seide15.247 / 15.E / RSS-210 Class: -
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna ConnectorsT-Log Number: T69413
Account Manager: Dean Eriksen
Run #2: AC Power Port Conducted Emissions, 0.15 - 30MHz, 120V/60Hz Coninued Next Page…
Run #2: AC Power Port Conducted Emissions, 0.15 - 30MHz, 120V/60Hz
T69413_FCC_DTS.xls AC CE 28-Jan-08 Page 11 of 79
EMC Test DataClient:
Contact:Standard:
Ron Seide15.247 / 15.E / RSS-210 Class: -
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna ConnectorsT-Log Number: T69413
Account Manager: Dean Eriksen
Frequency Level AC Detector CommentsMHz dBμV Line Limit Margin QP/Ave0.167 55.6 Line 1 65.1 -9.5 QP0.165 55.7 Neutral 65.2 -9.5 QP0.169 54.1 Neutral 65.0 -10.9 QP0.180 53.4 Line 1 64.5 -11.1 QP0.184 52.6 Neutral 64.3 -11.7 QP0.172 53.1 Line 1 64.9 -11.8 QP0.169 28.7 Neutral 55.0 -26.3 AVG0.165 28.7 Neutral 55.2 -26.5 AVG0.167 28.1 Line 1 55.1 -27.0 AVG0.184 27.1 Neutral 54.3 -27.2 AVG0.172 27.6 Line 1 54.9 -27.3 AVG0.180 27.0 Line 1 54.5 -27.5 AVG
EN55022 B
T69413_FCC_DTS.xls AC CE 28-Jan-08 Page 12 of 79
EMC Test DataClient:
Contact:Standard:
Test Specific Details
General Test Configuration
Ambient Conditions: 11.7 °C56 %
Summary of ResultsRun #1 Channel Pass/Fail
1a 1 Pass
1b 6 Pass
1c 11 Pass
2a 1 Pass
2b 6 Pass
2c 11 Pass
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
RSS 210 and FCC 15.247 Radiated Spurious Emissions
Objective: The objective of this test session is to perform final qualification testing of the EUT with respect to the specification listed above.
Date of Test: 12/14/2007 Config. Used: 1Test Engineer: Suhaila Khushzad Config Change: None
52.9dBµV/m (441.6µV/m) @ 4824.3MHz (-1.1dB)
Test Location: SVOATS # 2 EUT Voltage: Powered from Host System
The EUT and all local support equipment were located on the turntable for radiated spurious emissions testing. All remote support equipment was located approximately 30 meters from the EUT with all I/O connections running on top of the groundplane or rouFor radiated emissions testing the measurement antenna was located 3 meters from the EUT.
Temperature:Rel. Humidity:
TX Mode Power Setting Margin
b Full
b Full 52.4dBµV/m (416.9µV/m) @ 4874.0MHz (-1.6dB)
b Full 53.2dBµV/m (457.1µV/m) @ 7385.3MHz (-0.8dB)
g
Modifications Made During Testing
Full 52.4dBµV/m (416.9µV/m) @ 2390.0MHz (-1.6dB)
g Full 44.6dBµV/m (169.8µV/m) @ 12172.7MHz (-9.4dB)
Deviations From The StandardNo deviations were made from the requirements of the standard.
g Full 51.2dBµV/m (363.1µV/m) @ 2483.6MHz (-2.8dB)
No modifications were made to the EUT during testing
T69413_FCC_DTS.xls TX Laird PCB DTS Page 13 of 79
EMC Test DataClient:
Contact:Standard:
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Run # 1a: Radiated Spurious Emissions, 30 - 25000 MHz. Operating Mode: 802.11b Low Channel @ 2412 MHz, Power Setting: 100%, Larson PCB Antenna with 3.8 dBi Gain, Data Rate 11 Mbps
Note:
Note:
Fundamental Signal Field Strength:Frequency Level Pol Detector Azimuth Height Comments
MHz dBμV/m V/H Limit Margin Pk/QP/Avg degrees meters2413.250 99.0 V - - AVG 92 1.72408.420 97.3 H - - AVG 210 1.1
99.0 dBμV/m79 dBμV/m Limit is -20dBc (Peak power measurement)
Band Edge Signal Field StrengthFrequency Level Pol Detector Azimuth Height Comments
MHz dBμV/m v/h Limit Margin Pk/QP/Avg degrees meters2389.330 45.8 V 54.0 -8.2 AVG 92 1.02342.430 43.8 H 54.0 -10.2 AVG 210 1.02389.260 40.8 H 54.0 -13.2 AVG 210 1.02389.330 58.0 V 74.0 -16.0 PK 92 1.02389.260 47.2 H 74.0 -26.8 PK 210 1.02342.430 47.1 H 74.0 -26.9 PK 210 1.0
Limit for emissions outside of restricted bands:
15.209 / 15.247
Horizontal measurements were not taken due to previous test that showed vertical measurements were higher.
15.209 / 15.247
Fundamental emission level @ 3m in 100kHz RBW:
All tests will be performed in data rate of 11Mbps. Average band edge plots are for reference only, final measurements made with VB=1khz to avoid desensitization at 10Hz which reduced signal level by 5.6dB.
T69413_FCC_DTS.xls TX Laird PCB DTS Page 14 of 79
EMC Test DataClient:
Contact:Standard:
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Run # 1a: Radiated Spurious Emissions, 30 - 25000 MHz. Operating Mode: 802.11b Low Channel @ 2412 MHz, Power Setting: 100%, Larson PCB Antenna with 3.8 dBi Gain, Data Rate 11 Mbps
Peak - Vertical
Average - Vertical
T69413_FCC_DTS.xls TX Laird PCB DTS Page 15 of 79
EMC Test DataClient:
Contact:Standard:
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Run # 1a: Radiated Spurious Emissions, 30 - 25000 MHz. Operating Mode: 802.11b Low Channel @ 2412 MHz, Power Setting: 100%, Larson PCB Antenna with 3.8 dBi Gain, Data Rate 11 Mbps
Peak - Horizontal
Average - Horizontal
T69413_FCC_DTS.xls TX Laird PCB DTS Page 16 of 79
EMC Test DataClient:
Contact:Standard:
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Run # 1a: Radiated Spurious Emissions, 30 - 25000 MHz. Operating Mode: 802.11b Low Channel @ 2412 MHz, Power Setting: 100%, Larson PCB Antenna with 3.8 dBi Gain, Data Rate 11 Mbps
Other Spurious EmissionsFrequency Level Pol Detector Azimuth Height Comments
MHz dBμV/m v/h Limit Margin Pk/QP/Avg degrees meters4824.250 52.9 V 54.0 -1.1 AVG 21 1.07234.420 49.5 H 54.0 -4.5 AVG 252 1.57233.920 47.6 V 54.0 -6.4 AVG 255 1.94823.830 45.2 H 54.0 -8.8 AVG 207 1.09648.170 43.1 V 54.0 -10.9 AVG 235 1.09634.750 39.8 H 54.0 -14.2 AVG 315 1.64824.250 59.2 V 74.0 -14.8 PK 21 1.07234.420 54.3 H 74.0 -19.7 PK 252 1.57233.920 52.4 V 74.0 -21.6 PK 255 1.94823.830 52.1 H 74.0 -21.9 PK 207 1.09648.170 46.8 V 74.0 -27.2 PK 235 1.09634.750 45.6 H 74.0 -28.4 PK 315 1.6
Note 1:
15.209 / 15.247
For emissions in restricted bands, the limit of 15.209 was used. For all other emissions, the limit was set 20dB below the level of the fundamental and measured in 100kHz.
T69413_FCC_DTS.xls TX Laird PCB DTS Page 17 of 79
EMC Test DataClient:
Contact:Standard:
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Run # 1b: Radiated Spurious Emissions, 30 - 25000 MHz. Operating Mode: 802.11bCenter Channel @ 2437 MHz, Power Setting: 100%, Larson PCB Antenna with 3.8 dBi Gain, Data Rate 11 Mbps
Fundamental Signal Field Strength:Frequency Level Pol Detector Azimuth Height Comments
MHz dBμV/m V/H Limit Margin Pk/QP/Avg degrees meters2439.330 97.0 V - - AVG 89 1.02440.250 96.4 H - - AVG 177 2.0
97 dBμV/m77 dBμV/m Limit is -20dBc (Peak power measurement)
Other Spurious EmissionsFrequency Level Pol Detector Azimuth Height Comments
MHz dBμV/m V/H Limit Margin Pk/QP/Avg degrees meters4874.000 52.4 V 54.0 -1.6 AVG 165 1.07312.920 50.3 H 54.0 -3.7 AVG 245 1.67308.830 49.4 V 54.0 -4.6 AVG 204 2.19747.920 47.5 V 54.0 -6.5 AVG 237 1.09748.250 45.7 H 54.0 -8.3 AVG 282 1.64873.750 45.0 H 54.0 -9.0 AVG 197 2.04874.000 58.8 V 74.0 -15.2 PK 165 1.07312.920 55.1 H 74.0 -18.9 PK 245 1.67308.830 54.3 V 74.0 -19.7 PK 204 2.14873.750 51.6 H 74.0 -22.4 PK 197 2.09747.920 49.5 V 74.0 -24.5 PK 237 1.09748.250 49.2 H 74.0 -24.8 PK 282 1.6
Note 1:
Fundamental emission level @ 3m in 100kHz RBW:Limit for emissions outside of restricted bands:
15.209 / 15.247
For emissions in restricted bands, the limit of 15.209 was used. For all other emissions, the limit was set 20dB below the level of the fundamental and measured in 100kHz.
15.209 / 15.247
T69413_FCC_DTS.xls TX Laird PCB DTS Page 18 of 79
EMC Test DataClient:
Contact:Standard:
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Run # 1c: Radiated Spurious Emissions, 30 - 25000 MHz. Operating Mode: 802.11bHigh Channel @ 2462 MHz, Power Setting: 100%, Larson PCB Antenna with 3.8 dBi Gain, Data Rate 11 Mbps
Fundamental Signal Field Strength:Frequency Level Pol Detector Azimuth Height Comments
MHz dBμV/m V/H Limit Margin Pk/QP/Avg degrees meters2465.670 97.9 V - - AVG 90 1.02460.330 94.8 H - - AVG 203 1.0
97.9 dBμV/m77.9 dBμV/m Limit is -20dBc (Peak power measurement)
Band Edge Signal Field StrengthFrequency Level Pol Detector Azimuth Height Comments
MHz dBμV/m V/H Limit Margin Pk/QP/Avg degrees meters2484.780 42.8 V 54.0 -11.2 AVG 90 1.02484.760 37.9 H 54.0 -16.1 AVG 203 1.02484.780 52.6 V 74.0 -21.4 PK 90 1.02484.760 44.2 H 74.0 -29.8 PK 203 1.0
15.209 / 15.247
Limit for emissions outside of restricted bands:
15.209 / 15.247
Fundamental emission level @ 3m in 100kHz RBW:
T69413_FCC_DTS.xls TX Laird PCB DTS Page 19 of 79
EMC Test DataClient:
Contact:Standard:
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Run # 1c: Radiated Spurious Emissions, 30 - 25000 MHz. Operating Mode: 802.11bHigh Channel @ 2462 MHz, Power Setting: 100%, Larson PCB Antenna with 3.8 dBi Gain, Data Rate 11 Mbps
Peak - Vertical
Average - Vertical
T69413_FCC_DTS.xls TX Laird PCB DTS Page 20 of 79
EMC Test DataClient:
Contact:Standard:
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Run # 1c: Radiated Spurious Emissions, 30 - 25000 MHz. Operating Mode: 802.11bHigh Channel @ 2462 MHz, Power Setting: 100%, Larson PCB Antenna with 3.8 dBi Gain, Data Rate 11 Mbps
Peak - Horizontal
Average - Horizontal
T69413_FCC_DTS.xls TX Laird PCB DTS Page 21 of 79
EMC Test DataClient:
Contact:Standard:
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Run # 1c: Radiated Spurious Emissions, 30 - 25000 MHz. Operating Mode: 802.11bHigh Channel @ 2462 MHz, Power Setting: 100%, Larson PCB Antenna with 3.8 dBi Gain, Data Rate 11 Mbps
Other Spurious EmissionsFrequency Level Pol Detector Azimuth Height Comments
MHz dBμV/m V/H Limit Margin Pk/QP/Avg degrees meters7385.250 53.2 V 54.0 -0.8 AVG 278 1.04924.080 51.4 V 54.0 -2.6 AVG 254 1.07388.670 50.9 H 54.0 -3.1 AVG 261 1.89848.080 50.4 V 54.0 -3.6 AVG 65 1.39848.500 48.2 H 54.0 -5.8 AVG 70 1.64924.080 42.4 H 54.0 -11.6 AVG 208 0.07385.250 58.7 V 74.0 -15.3 PK 278 1.04924.080 58.1 V 74.0 -15.9 PK 254 1.07388.670 55.9 H 74.0 -18.1 PK 261 1.89848.080 52.4 V 74.0 -21.6 PK 65 1.39848.500 51.4 H 74.0 -22.6 PK 70 1.64924.080 49.2 H 74.0 -24.8 PK 208 0.0
Note 1: For emissions in restricted bands, the limit of 15.209 was used. For all other emissions, the limit was set 20dB below the level of the fundamental and measured in 100kHz.
15.209 / 15.247
T69413_FCC_DTS.xls TX Laird PCB DTS Page 22 of 79
EMC Test DataClient:
Contact:Standard:
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Run #2a: Radiated Spurious Emissions, 30 - 25000 MHz. Operating Mode: 802.11g Low Channel @ 2412 MHz, Power Setting: 100%, Larson PCB Antenna with 3.8 dBi Gain, Data Rate 54 MbpsAmbient Conditions: 11.7 °C
56 %
Note:
Note:
Fundamental Signal Field Strength:Frequency Level Pol Detector Azimuth Height Comments
MHz dBμV/m V/H Limit Margin Pk/QP/Avg degrees meters2415.000 93.2 V - - PK 95 1.92410.770 89.4 H - - PK 188 2.2
93.2 dBμV/m73.2 dBμV/m Limit is -20dBc (Peak power measurement)
Band Edge Signal Field StrengthFrequency Level Pol Detector Azimuth Height Comments
MHz dBμV/m v/h Limit Margin Pk/QP/Avg degrees meters2389.980 52.4 V 54.0 -1.6 AVG 18 1.12337.920 50.0 V 54.0 -4.0 AVG 18 1.12389.980 65.5 V 74.0 -8.5 PK 18 1.12389.950 45.2 H 54.0 -8.8 AVG 300 1.12342.020 44.2 H 54.0 -9.8 AVG 300 1.12389.950 57.3 H 74.0 -16.7 PK 300 1.12337.920 52.8 V 74.0 -21.2 PK 18 1.12342.020 45.7 H 74.0 -28.3 PK 300 1.1
15.209 / 15.247
15.209 / 15.247
Fundamental emission level @ 3m in 100kHz RBW:Limit for emissions outside of restricted bands:
Temperature:Rel. Humidity:
All tests will be performed in data rate of 54Mbps. Average band edge plots are for reference only, final measurements made with VB=1khz to avoid desensitization at 10Hz which reduced signal level by 6.6dB.Horizontal measurements were not taken due to previous test that showed vertical measurements were higher.
T69413_FCC_DTS.xls TX Laird PCB DTS Page 23 of 79
EMC Test DataClient:
Contact:Standard:
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Run #2a: Radiated Spurious Emissions, 30 - 25000 MHz. Operating Mode: 802.11g Low Channel @ 2412 MHz, Power Setting: 100%, Larson PCB Antenna with 3.8 dBi Gain, Data Rate 54 Mbps
Peak - Vertical
Average - Vertical
T69413_FCC_DTS.xls TX Laird PCB DTS Page 24 of 79
EMC Test DataClient:
Contact:Standard:
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Run #2a: Radiated Spurious Emissions, 30 - 25000 MHz. Operating Mode: 802.11g Low Channel @ 2412 MHz, Power Setting: 100%, Larson PCB Antenna with 3.8 dBi Gain, Data Rate 54 Mbps
Peak - Horizontal
Average - Horizontal
T69413_FCC_DTS.xls TX Laird PCB DTS Page 25 of 79
EMC Test DataClient:
Contact:Standard:
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Run #2a: Radiated Spurious Emissions, 30 - 25000 MHz. Operating Mode: 802.11g Low Channel @ 2412 MHz, Power Setting: 100%, Larson PCB Antenna with 3.8 dBi Gain, Data Rate 54 Mbps
Other Spurious EmissionsFrequency Level Pol Detector Azimuth Height Comments
MHz dBμV/m v/h Limit Margin Pk/QP/Avg degrees meters7235.17 50.2 V 54.0 -3.8 AVG 29 2.14826.67 49.3 V 54.0 -4.7 AVG 354 2.0
12043.33 45.8 H 54.0 -8.2 AVG 132 1.07238.58 45.7 H 54.0 -8.3 AVG 55 2.1
12053.75 45.7 V 54.0 -8.3 AVG 165 1.09665.08 41.3 H 54.0 -12.7 AVG 172 1.09632.00 41.2 V 54.0 -12.8 AVG 195 2.14825.08 39.1 H 54.0 -14.9 AVG 195 1.07235.17 58.8 V 74.0 -15.2 PK 29 2.14826.67 57.1 V 74.0 -16.9 PK 354 2.07238.58 52.8 H 74.0 -21.2 PK 55 2.1
12053.75 51.7 V 74.0 -22.3 PK 165 1.012043.33 51.1 H 74.0 -22.9 PK 132 1.09665.08 46.2 H 74.0 -27.8 PK 172 1.09632.00 45.5 V 74.0 -28.5 PK 195 2.14825.08 45.1 H 74.0 -28.9 PK 195 1.0
Note 1:
15.209 / 15.247
For emissions in restricted bands, the limit of 15.209 was used. For all other emissions, the limit was set 20dB below the level of the fundamental and measured in 100kHz.
T69413_FCC_DTS.xls TX Laird PCB DTS Page 26 of 79
EMC Test DataClient:
Contact:Standard:
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Run #2b: Radiated Spurious Emissions, 30 - 25000 MHz. Operating Mode: 802.11g Center Channel @ 2437 MHz, Power Setting: 100%, Larson PCB Antenna with 3.8 dBi Gain, Data Rate 54 Mbps
Fundamental Signal Field Strength:Frequency Level Pol Detector Azimuth Height Comments
MHz dBμV/m V/H Limit Margin Pk/QP/Avg degrees meters2432.330 88.8 H - - PK 16 2.32435.740 91.0 V - - PK 94 1.9
91 dBμV/m71 dBμV/m Limit is -20dBc (Peak power measurement)
Other Spurious EmissionsFrequency Level Pol Detector Azimuth Height Comments
MHz dBμV/m V/H Limit Margin Pk/QP/Avg degrees meters12172.67 44.6 V 54.0 -9.4 AVG 0 1.012188.75 44.6 H 54.0 -9.4 AVG 0 1.04874.33 41.9 V 54.0 -12.1 AVG 0 1.07336.00 41.4 V 54.0 -12.6 AVG 111 0.07332.50 41.4 H 54.0 -12.6 AVG 191 2.19752.67 40.8 V 54.0 -13.2 AVG 86 1.04875.00 38.8 H 54.0 -15.2 AVG 201 1.49751.17 40.7 H 54.0 -19.9 AVG 0 1.0
12188.75 49.8 H 74.0 -24.2 PK 0 1.012172.67 49.3 V 74.0 -24.7 PK 0 1.04874.33 48.8 V 74.0 -25.2 PK 0 1.07332.50 46.0 H 74.0 -28.0 PK 191 2.17336.00 45.8 V 74.0 -28.2 PK 111 0.09752.67 45.8 V 74.0 -28.2 PK 86 1.09751.17 45.3 H 74.0 -28.7 PK 0 1.04875.00 44.2 H 74.0 -29.8 PK 201 1.4
Note 1:
Limit for emissions outside of restricted bands:
15.209 / 15.247
For emissions in restricted bands, the limit of 15.209 was used. For all other emissions, the limit was set 20dB below the level of the fundamental and measured in 100kHz.
Fundamental emission level @ 3m in 100kHz RBW:
15.209 / 15.247
T69413_FCC_DTS.xls TX Laird PCB DTS Page 27 of 79
EMC Test DataClient:
Contact:Standard:
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Run #2c: Radiated Spurious Emissions, 30 - 25000 MHz. Operating Mode: 802.11gHigh Channel @ 2462 MHz, Power Setting: 100%, Larson PCB Antenna with 3.8 dBi Gain, Data Rate 54 Mbps
Fundamental Signal Field Strength:Frequency Level Pol Detector Azimuth Height Comments
MHz dBμV/m V/H Limit Margin Pk/QP/Avg degrees meters2460.770 89.4 V - - PK 92 1.82460.760 90.2 H - - PK 17 1.0
90.2 dBμV/m70.2 dBμV/m Limit is -20dBc (Peak power measurement)
Band Edge Signal Field StrengthFrequency Level Pol Detector Azimuth Height Comments
MHz dBμV/m v/h Limit Margin Pk/QP/Avg degrees meters2483.570 51.2 V 54.0 -2.8 AVG 103 1.02483.500 49.5 H 54.0 -4.5 AVG 9 1.02483.570 64.5 V 74.0 -9.5 PK 103 1.02483.500 62.1 H 74.0 -11.9 PK 9 1.0
Fundamental emission level @ 3m in 100kHz RBW:Limit for emissions outside of restricted bands:
15.209 / 15.247
15.209 / 15.247
T69413_FCC_DTS.xls TX Laird PCB DTS Page 28 of 79
EMC Test DataClient:
Contact:Standard:
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Run #2c: Radiated Spurious Emissions, 30 - 25000 MHz. Operating Mode: 802.11gHigh Channel @ 2462 MHz, Power Setting: 100%, Larson PCB Antenna with 3.8 dBi Gain, Data Rate 54 Mbps
Peak - Vertical
Average - Vertical
T69413_FCC_DTS.xls TX Laird PCB DTS Page 29 of 79
EMC Test DataClient:
Contact:Standard:
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Run #2c: Radiated Spurious Emissions, 30 - 25000 MHz. Operating Mode: 802.11gHigh Channel @ 2462 MHz, Power Setting: 100%, Larson PCB Antenna with 3.8 dBi Gain, Data Rate 54 Mbps
Peak - Horizontal
Average - Horizontal
T69413_FCC_DTS.xls TX Laird PCB DTS Page 30 of 79
EMC Test DataClient:
Contact:Standard:
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Run #2c: Radiated Spurious Emissions, 30 - 25000 MHz. Operating Mode: 802.11gHigh Channel @ 2462 MHz, Power Setting: 100%, Larson PCB Antenna with 3.8 dBi Gain, Data Rate 54 Mbps
Other Spurious EmissionsFrequency Level Pol Detector Azimuth Height Comments
MHz dBμV/m V/H Limit Margin Pk/QP/Avg degrees meters4922.75 47.5 V 54.0 -6.5 AVG 255 2.07382.75 46.9 V 54.0 -7.1 AVG 272 1.07384.67 46.3 H 54.0 -7.7 AVG 264 1.6
12279.67 43.5 V 54.0 -10.5 AVG 0 1.09839.08 41.7 V 54.0 -12.3 AVG 307 1.09830.92 41.6 H 54.0 -12.4 AVG 139 1.04924.08 40.3 H 54.0 -13.7 AVG 205 2.04922.75 54.9 V 74.0 -19.1 PK 255 2.07382.75 53.7 V 74.0 -20.3 PK 272 1.07384.67 52.6 H 74.0 -21.4 PK 264 1.6
12279.67 48.3 V 74.0 -25.7 PK 0 1.04924.08 46.6 H 74.0 -27.4 PK 205 2.09830.92 46.4 H 74.0 -27.6 PK 139 1.09839.08 46.1 V 74.0 -27.9 PK 307 1.0
Note 1: For emissions in restricted bands, the limit of 15.209 was used. For all other emissions, the limit was set 20dB below the level of the fundamental and measured in 100kHz.
15.209 / 15.247
T69413_FCC_DTS.xls TX Laird PCB DTS Page 31 of 79
EMC Test DataClient:
Contact:Standard:
Test Specific Details
General Test Configuration
Ambient Conditions: 17.2 °C70 %
Summary of ResultsRun #1 Channel Pass/Fail
1a 1 Pass
1b 6 Pass
1c 11 Pass
2a 1 Pass
2b 6 Pass
2c 11 Passg Full 52.0dBµV/m (398.1µV/m) @ 2483.5MHz (-2.0dB)
Modifications Made During TestingNo modifications were made to the EUT during testingDeviations From The StandardNo deviations were made from the requirements of the standard.
Full 51.9dBµV/m (393.6µV/m) @ 2389.4MHz (-2.1dB)
g Full 44.0dBµV/m (158.5µV/m) @ 7310.7MHz (-10.0dB)
b Full 52.3dBµV/m (412.1µV/m) @ 4874.0MHz (-1.7dB)
b Full 53.8dBµV/m (489.8µV/m) @ 4924.0MHz (-0.2dB)
g
The EUT and all local support equipment were located on the turntable for radiated spurious emissions testing. All remote support equipment was located approximately 30 meters from the EUT with all I/O connections running on top of the groundplane or routed in overhead in the GR-1089 test configuration.For radiated emissions testing the measurement antenna was located 3 meters from the EUT.
Temperature:Rel. Humidity:
TX Mode Power Setting Margin
b Full 52.2dBµV/m (407.4µV/m) @ 2387.5MHz (-1.8dB)
Test Location: SVOATS #1 EUT Voltage: Powered from Host SystemTest Engineer: Joseph Cadigal/Rafael Varelas Config Change: None
RSS 210 and FCC 15.247 Radiated Spurious Emissions
Objective: The objective of this test session is to perform final qualification testing of the EUT with respect to the specification listed above.
Date of Test: 11/19/2007 Config. Used: 1
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
T69413_FCC_DTS.xls TX Omni DTS Page 32 of 79
EMC Test DataClient:
Contact:Standard:
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
Run #1: Radiated Spurious Emissions, 30 - 25000 MHz. Operating Mode: 802.11b
Ambient Conditions: 17 °C50 %
Note:
Note:
Run #1a: Low Channel @ 2412 MHzPower Setting: 100%Fundamental Signal Field Strength:Frequency Level Pol Detector Azimuth Height Comments
MHz dBμV/m V/H Limit Margin Pk/QP/Avg degrees meters2410.300 110.0 V - - AVG 5 1.3 11Mbs2410.300 112.4 V - - PK 5 1.3 11Mbs
113.3 dBμV/m93.3 dBμV/m Limit is -20dBc (Peak power measurement)
All tests will be performed in data rate of 11Mbps. Average band edge plots are for reference only, final measurements made with VB=1khz to avoid desensitization at 10Hz which reduced signal level by 5.6dB.
15.209 / 15.247
Fundamental emission level @ 3m in 100kHz RBW:
Horizontal measurements were not taken due to previous test that showed vertical measurements were higher.
Temperature:Rel. Humidity:
Limit for emissions outside of restricted bands:
T69413_FCC_DTS.xls TX Omni DTS Page 33 of 79
EMC Test DataClient:
Contact:Standard:
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
Vertical -Average
T69413_FCC_DTS.xls TX Omni DTS Page 34 of 79
EMC Test DataClient:
Contact:Standard:
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
Vertical - Peak
Band Edge Signal Field StrengthFrequency Level Pol Detector Azimuth Height Comments
MHz dBμV/m v/h Limit Margin Pk/QP/Avg degrees meters2387.500 52.2 V 54.0 -1.8 AVG 116 1.32387.500 58.7 V 74.0 -15.3 PK 116 1.3
Other Spurious EmissionsFrequency Level Pol Detector Azimuth Height Comments
MHz dBμV/m v/h Limit Margin Pk/QP/Avg degrees meters4823.950 50.3 V 54.0 -3.7 AVG 19 1.27234.690 48.5 V 54.0 -5.5 AVG 12 1.34823.950 57.5 V 74.0 -16.5 PK 19 1.27234.690 53.3 V 74.0 -20.7 PK 12 1.3
Note 1:
15.209 / 15.247
15.209 / 15.247
For emissions in restricted bands, the limit of 15.209 was used. For all other emissions, the limit was set 20dB below the level of the fundamental and measured in 100kHz.
T69413_FCC_DTS.xls TX Omni DTS Page 35 of 79
EMC Test DataClient:
Contact:Standard:
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
Run #1b: Center Channel @ 2437 MHzPower Setting: 100%
104 dBμV/m84 dBμV/m Limit is -20dBc (Peak power measurement)
Frequency Level Pol Detector Azimuth Height CommentsMHz dBμV/m V/H Limit Margin Pk/QP/Avg degrees meters
4874.020 52.3 V 54.0 -1.7 AVG 9 1.37309.770 49.5 V 54.0 -4.5 AVG 347 1.34874.020 58.8 V 74.0 -15.2 PK 9 1.37309.770 54.4 V 74.0 -19.6 PK 347 1.3
Note 1: For emissions in restricted bands, the limit of 15.209 was used. For all other emissions, the limit was set 20dB below the level of the fundamental and measured in 100kHz.
15.209 / 15.247
Fundamental emission level @ 3m in 100kHz RBW:Limit for emissions outside of restricted bands:
T69413_FCC_DTS.xls TX Omni DTS Page 36 of 79
EMC Test DataClient:
Contact:Standard:
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
Run #1c: High Channel @ 2462 MHzPower Setting: 100%Fundamental Signal Field Strength:Frequency Level Pol Detector Azimuth Height Comments
MHz dBμV/m V/H Limit Margin Pk/QP/Avg degrees meters2464.500 103.7 V - - AVG 78 1.32464.500 112.3 V - - PK 78 1.3
107 dBμV/m87 dBμV/m Limit is -20dBc (Peak power measurement)
Vertical - Average
Limit for emissions outside of restricted bands:
15.209 / 15.247
Fundamental emission level @ 3m in 100kHz RBW:
T69413_FCC_DTS.xls TX Omni DTS Page 37 of 79
EMC Test DataClient:
Contact:Standard:
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
Vertical - Peak
Frequency Level Pol Detector Azimuth Height CommentsMHz dBμV/m V/H Limit Margin Pk/QP/Avg degrees meters
2483.510 52.1 V 54.0 -1.9 AVG 301 1.32483.510 61.1 V 74.0 -12.9 PK 301 1.3
Note 1:
Other Spurious EmissionsFrequency Level Pol Detector Azimuth Height Comments
MHz dBμV/m V/H Limit Margin Pk/QP/Avg degrees meters4924.020 53.8 V 54.0 -0.2 AVG 157 1.57384.770 51.6 V 54.0 -2.4 AVG 351 2.04924.020 61.6 V 74.0 -12.4 PK 157 1.57384.770 56.6 V 74.0 -17.4 PK 351 2.0
Note 1: For emissions in restricted bands, the limit of 15.209 was used. For all other emissions, the limit was set 20dB below the level of the fundamental and measured in 100kHz.
Calculated by subtracting the marker delta values from the fundamental field strength measurements.
15.209 / 15.247
15.209 / 15.247
T69413_FCC_DTS.xls TX Omni DTS Page 38 of 79
EMC Test DataClient:
Contact:Standard:
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
Run #2: Radiated Spurious Emissions, 30 - 25000 MHz. Operating Mode: 802.11g
Ambient Conditions: 8 °C71 %
Note:
Note:
Run #2a: Low Channel @ 2412 MHzPower Setting: 100%Fundamental Signal Field Strength:Frequency Level Pol Detector Azimuth Height Comments
MHz dBμV/m V/H Limit Margin Pk/QP/Avg degrees meters2410.070 101.7 V - - AVG 79 1.3 54Mbs2410.070 110.6 V - - PK 79 1.3 54Mbs
101.3 dBμV/m81.3 dBμV/m Limit is -20dBc (Peak power measurement)
Temperature:Rel. Humidity:
All tests will be performed in data rate of 54Mbps. Average band edge plots are for reference only, final measurements made with VB=1khz to avoid desensitization at 10Hz which reduced signal level by 6.6dB.Horizontal measurements were not taken due to previous test that showed vertical measurements were higher.
15.209 / 15.247
Fundamental emission level @ 3m in 100kHz RBW:Limit for emissions outside of restricted bands:
T69413_FCC_DTS.xls TX Omni DTS Page 39 of 79
EMC Test DataClient:
Contact:Standard:
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
Vertical -Average
T69413_FCC_DTS.xls TX Omni DTS Page 40 of 79
EMC Test DataClient:
Contact:Standard:
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
Vertical - Peak
Band Edge Signal Field StrengthFrequency Level Pol Detector Azimuth Height Comments
MHz dBμV/m v/h Limit Margin Pk/QP/Avg degrees meters2389.430 51.9 V 54.0 -2.1 Avg 79 1.32389.580 64.5 V 74.0 -9.5 PK 79 1.3
Other Spurious EmissionsFrequency Level Pol Detector Azimuth Height Comments
MHz dBμV/m v/h Limit Margin Pk/QP/Avg degrees meters7235.870 43.4 V 54.0 -10.6 AVG 286 1.34822.750 41.3 V 54.0 -12.7 AVG 176 1.07235.870 50.1 V 74.0 -23.9 PK 286 1.34822.750 48.8 V 74.0 -25.2 PK 176 1.0
Note 1:
15.209 / 15.247
15.209 / 15.247
For emissions in restricted bands, the limit of 15.209 was used. For all other emissions, the limit was set 20dB below the level of the fundamental and measured in 100kHz.
T69413_FCC_DTS.xls TX Omni DTS Page 41 of 79
EMC Test DataClient:
Contact:Standard:
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
Run #2b: Center Channel @ 2437 MHzPower Setting: 100%
101.1 dBμV/m81.1 dBμV/m Limit is -20dBc (Peak power measurement)
Frequency Level Pol Detector Azimuth Height CommentsMHz dBμV/m V/H Limit Margin Pk/QP/Avg degrees meters
7310.670 44.0 V 54.0 -10.0 AVG 331 1.04873.960 42.6 V 54.0 -11.4 AVG 185 1.17310.670 50.8 V 74.0 -23.2 PK 331 1.04873.960 49.7 V 74.0 -24.3 PK 185 1.1
Note 1:
Fundamental emission level @ 3m in 100kHz RBW:Limit for emissions outside of restricted bands:
15.209 / 15.247
For emissions in restricted bands, the limit of 15.209 was used. For all other emissions, the limit was set 20dB below the level of the fundamental and measured in 100kHz.
T69413_FCC_DTS.xls TX Omni DTS Page 42 of 79
EMC Test DataClient:
Contact:Standard:
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
Run #2c: High Channel @ 2462 MHzPower Setting: 100%Fundamental Signal Field Strength:Frequency Level Pol Detector Azimuth Height Comments
MHz dBμV/m V/H Limit Margin Pk/QP/Avg degrees meters2460.400 93.2 V - - AVG 185 1.02460.400 108.7 V - - PK 185 1.0
99.7 dBμV/m79.7 dBμV/m Limit is -20dBc (Peak power measurement)
Vertical - Average
15.209 / 15.247
Fundamental emission level @ 3m in 100kHz RBW:Limit for emissions outside of restricted bands:
T69413_FCC_DTS.xls TX Omni DTS Page 43 of 79
EMC Test DataClient:
Contact:Standard:
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
Vertical - Peak
Frequency Level Pol Detector Azimuth Height CommentsMHz dBμV/m V/H Limit Margin Pk/QP/Avg degrees meters
2483.500 52.0 V 54.0 -2.0 Avg 185 1.02483.510 63.3 V 74.0 -10.7 PK 185 1.0
Other Spurious EmissionsFrequency Level Pol Detector Azimuth Height Comments
MHz dBμV/m V/H Limit Margin Pk/QP/Avg degrees meters7384.920 44.6 V 54.0 -9.4 AVG 166 1.04921.920 44.2 V 54.0 -9.8 AVG 229 1.94921.920 52.2 V 74.0 -21.8 PK 229 1.97384.920 51.2 V 74.0 -22.8 PK 166 1.0
Note 1:
15.209 / 15.247
For emissions in restricted bands, the limit of 15.209 was used. For all other emissions, the limit was set 20dB below the level of the fundamental and measured in 100kHz.
15.209 / 15.247
T69413_FCC_DTS.xls TX Omni DTS Page 44 of 79
EMC Test DataClient:
Contact:Standard:
Test Specific Details
General Test Configuration
Ambient Conditions: 11.7 °C63 %
Summary of Results
Pass / Fail
Pass
Pass
Pass
Result / Margin41.4dBµV/m (117.5µV/m) @
2187.3MHz (-12.6dB)38.1dBµV/m (80.4µV/m) @
9724.3MHz (-15.9dB)38.2dBµV/m (81.3µV/m) @
11569.3MHz (-15.8dB)
Run # Test Performed Limit
1 (802.11b Mode) RE, 30 - 10000 MHzSpurious Emissions
Summit Data Communications Job Number: J68959
Ron Seide
T69413Dean Eriksen
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number:Account Manager:
N/A
RSS 210 and FCC 15.247 Radiated Spurious Emissions
Objective: The objective of this test session is to perform final qualification testing of the EUT with respect to the specification listed above.
15.247 / 15.E / RSS-210 Class:
Date of Test: 11/27/2007 & 12/19/07 Config. Used: 1Test Engineer: Suhaila Khushzad Config Change: NoneTest Location: SVOATS #2 EUT Voltage: Powered from Host System
The EUT and all local support equipment were located on the turntable for radiated spurious emissions testing. All remote support equipment was located approximately 30 meters from the EUT with all I/O connections running on top of the groundplane or routed in overhead in the GR-1089 test configuration.
For radiated emissions testing the measurement antenna was located 3 meters from the EUT.
Temperature:Rel. Humidity:
No modifications were made to the EUT during testing
Deviations From The StandardNo deviations were made from the requirements of the standard.
RSS-GEN
2 (802.11g Mode) RE, 30 - 10000 MHzSpurious Emissions RSS-GEN
3 (802.11a - 5785 MHz)
RE, 30 - 16000 MHz - Spurious Emissions RSS-GEN
Modifications Made During Testing
T69413_FCC_DTS.xls RX Omni Page 45 of 79
EMC Test DataClient:
Contact:Standard:
Summit Data Communications Job Number: J68959
Ron Seide
T69413Dean Eriksen
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number:Account Manager:
N/A15.247 / 15.E / RSS-210 Class:Run # 1: Rx Mode Radiated Spurious Emissions, 30 - 10000 MHz. Operating Mode: 802.11b Round Omni Antenna with 2.3dBi Gain, Data Rate 11 Mbps Center Channel @ 2437 MHzOther Spurious EmissionsFrequency Level Pol Detector Azimuth Height Comments
MHz dBμV/m v/h Limit Margin Pk/QP/Avg degrees meters2187.330 41.4 H 54.0 -12.6 AVG 325 1.51287.500 38.0 V 54.0 -16.0 AVG 317 1.09676.500 36.9 H 54.0 -17.1 AVG 101 1.03937.330 36.7 H 54.0 -17.3 AVG 114 1.09643.000 36.5 V 54.0 -17.5 AVG 29 1.07187.000 34.4 V 54.0 -19.6 AVG 251 1.07163.500 34.0 H 54.0 -20.0 AVG 146 1.02187.500 34.0 V 54.0 -20.0 AVG 26 1.03497.000 32.5 V 54.0 -21.5 AVG 0 1.04970.000 30.5 H 54.0 -23.5 AVG 150 2.04863.500 30.5 V 54.0 -23.5 AVG 217 1.09676.500 48.3 H 74.0 -25.7 PK 101 1.03937.330 48.1 H 74.0 -25.9 PK 114 1.09643.000 48.1 V 74.0 -25.9 PK 29 1.01013.917 28.0 H 54.0 -26.0 AVG 306 1.07187.000 46.2 V 74.0 -27.8 PK 251 1.07163.500 45.5 H 74.0 -28.5 PK 146 1.02187.330 43.4 H 74.0 -30.6 PK 325 1.54970.000 42.8 H 74.0 -31.2 PK 150 2.03497.000 42.2 V 74.0 -31.8 PK 0 1.04863.500 41.8 V 74.0 -32.2 PK 217 1.02187.500 40.3 V 74.0 -33.7 PK 26 1.01013.917 33.5 H 74.0 -40.5 PK 306 1.01287.500 33.0 V 74.0 -41.0 PK 317 1.0
30.000 25.3 H 40.0 -14.7 QP 0 1.030.000 25.0 V 40.0 -15.0 QP 360 1.0
150.000 26.0 V 43.5 -17.5 QP 360 1.0290.000 27.0 H 46.0 -19.0 QP 330 1.0320.000 27.0 V 46.0 -19.0 QP 360 1.0250.000 26.0 H 46.0 -20.0 QP 360 1.0150.000 23.4 H 43.5 -20.1 QP 0 1.0708.000 24.5 V 46.0 -21.5 QP 360 1.0250.000 21.0 V 46.0 -25.0 QP 0 1.0
Note 1: For emissions in restricted bands, the limit of 15.209 was used. For all other emissions, the limit was set 20dB below the level of the fundamental and measured in 100kHz.
RSS-GEN
T69413_FCC_DTS.xls RX Omni Page 46 of 79
EMC Test DataClient:
Contact:Standard:
Summit Data Communications Job Number: J68959
Ron Seide
T69413Dean Eriksen
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number:Account Manager:
N/A15.247 / 15.E / RSS-210 Class:
Run # 2: Rx Mode Radiated Spurious Emissions, 30 - 10000 MHz. Operating Mode: 802.11g Round Omni Antenna with 2.3dBi Gain, Data Rate 54 Mbps Center Channel @ 2437 MHz
Other Spurious EmissionsFrequency Level Pol Detector Azimuth Height Comments
MHz dBμV/m v/h Limit Margin Pk/QP/Avg degrees meters9724.33 38.1 V 54.0 -15.9 AVG 46 1.0
12152.33 38.0 H 54.0 -16.0 AVG 0 1.012144.16 37.9 V 54.0 -16.1 AVG 0 1.09724.25 36.7 H 54.0 -17.3 AVG 130 1.04851.58 35.3 H 54.0 -18.7 AVG 131 1.07322.17 33.8 H 54.0 -20.2 AVG 2 1.07308.33 33.4 V 54.0 -20.6 AVG 229 1.04851.58 51.5 H 74.0 -22.5 PK 131 1.04845.33 31.4 V 54.0 -22.6 AVG 356 2.4
12144.16 49.4 V 74.0 -24.6 PK 0 1.012152.33 49.4 H 74.0 -24.6 PK 0 1.09724.33 48.5 V 74.0 -25.5 PK 46 1.09724.25 48.3 H 74.0 -25.7 PK 130 1.04845.33 48.2 V 74.0 -25.8 PK 356 2.47322.17 45.3 H 74.0 -28.7 PK 2 1.07308.33 44.1 V 74.0 -29.9 PK 229 1.0
Note 1:
RSS-GEN
For emissions in restricted bands, the limit of 15.209 was used. For all other emissions, the limit was set 20dB below the level of the fundamental and measured in 100kHz.
T69413_FCC_DTS.xls RX Omni Page 47 of 79
EMC Test DataClient:
Contact:Standard:
Summit Data Communications Job Number: J68959
Ron Seide
T69413Dean Eriksen
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number:Account Manager:
N/A15.247 / 15.E / RSS-210 Class:
Run # 3: Rx Mode Radiated Spurious Emissions, 30 - 16000 MHz. Operating Mode: 802.11aOmni Antenna with 5dBi Gain, Data Rate 54 MbpsCenter Channel @ 5785 MHz
Other Spurious EmissionsFrequency Level Pol Detector Azimuth Height Comments
MHz dBμV/m v/h Limit Margin Pk/QP/Avg degrees meters11569.27 38.2 H 54.0 -15.8 AVG 157 1.811571.15 38.1 V 54.0 -15.9 AVG 262 1.05785.63 34.6 V 54.0 -19.4 AVG 28 1.05785.21 33.2 H 54.0 -20.8 AVG 46 1.0
11571.15 50.1 V 74.0 -23.9 PK 262 1.011569.27 49.5 H 74.0 -24.5 PK 157 1.85785.63 46.9 V 74.0 -27.1 PK 28 1.05785.21 44.5 H 74.0 -29.5 PK 46 1.0
Date of Test: 1/22/2008 Config. Used: 1Test Engineer: Rafael varelas Config Change: None
Powered from Host System
RSS-GEN
Test Location: SVOATS #1 EUT Voltage:
T69413_FCC_DTS.xls RX Omni Page 48 of 79
EMC Test DataClient:
Contact:Standard:
Test Specific Details
General Test Configuration
Ambient Conditions: 14.4 °C53 %
Summary of Results
Pass / Fail
Pass
Pass
Pass3 (802.11a - 5785 MHz)
RE, 30 - 16000 MHz - Spurious Emissions RSS-GEN
38.2dBµV/m (81.3µV/m) @
11568.5MHz (-15.8dB)
Modifications Made During TestingNo modifications were made to the EUT during testing
Deviations From The StandardNo deviations were made from the requirements of the standard.
2 (802.11g Mode) RE, 30 - 10000 MHz - Spurious Emissions RSS-GEN 37.9dBµV/m @
12163.1MHz (-16.1dB)
1 (802.11b Mode) RE, 30 - 10000 MHz - Spurious Emissions RSS-GEN 37.7dBµV/m @
12180.5MHz (-16.3dB)
Run # Test Performed Limit Result / Margin
The EUT and all local support equipment were located on the turntable for radiated spurious emissions testing. All remote support equipment was located approximately 30 meters from the EUT with all I/O connections running on top of the groundplane or routed in overhead in the GR-1089 test configuration.
For radiated emissions testing the measurement antenna was located 3 meters from the EUT.
Temperature:Rel. Humidity:
Test Location: SVOATS # 2 EUT Voltage: Powered form Host SystemTest Engineer: Suhaila Khushzad Config Change: None
RSS 210 and FCC 15.247 Radiated Spurious Emissions
Objective: The objective of this test session is to perform final qualification testing of the EUT with respect to the specification listed above.
Date of Test: 12/19/2007 Config. Used: 1
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
T69413_FCC_DTS.xls RX PCB Page 49 of 79
EMC Test DataClient:
Contact:Standard:
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
Run # 1: Rx Mode Radiated Spurious Emissions, 30 - 10000 MHz. Operating Mode: 802.11b Larson PCB Antenna with 3.8 dBi Gain, Data Rate 11 Mbps Center Channel @ 2437 MHz
Other Spurious EmissionsFrequency Level Pol Detector Azimuth Height Comments
MHz dBμV/m v/h Limit Margin Pk/QP/Avg degrees meters12180.50 37.7 V 54.0 -16.3 AVG 0 1.012167.33 37.6 H 54.0 -16.4 AVG 0 1.09728.83 36.6 V 54.0 -17.4 AVG 184 1.09736.92 36.2 H 54.0 -17.8 AVG 29 1.04851.50 34.5 H 54.0 -19.5 AVG 136 1.07320.25 33.7 H 54.0 -20.3 AVG 151 1.07320.42 33.7 V 54.0 -20.3 AVG 202 1.04851.00 31.2 V 54.0 -22.8 AVG 37 1.0
12180.50 49.3 V 74.0 -24.7 PK 0 1.012167.33 49.2 H 74.0 -24.8 PK 0 1.04851.50 48.5 H 74.0 -25.5 PK 136 1.09728.83 48.5 V 74.0 -25.5 PK 184 1.09736.92 47.4 H 74.0 -26.6 PK 29 1.07320.25 45.5 H 74.0 -28.5 PK 151 1.07320.42 45.2 V 74.0 -28.8 PK 202 1.04851.00 44.9 V 74.0 -29.1 PK 37 1.0
Note 1:
15.209 / 15.247
For emissions in restricted bands, the limit of 15.209 was used. For all other emissions, the limit was set 20dB below the level of the fundamental and measured in 100kHz.
T69413_FCC_DTS.xls RX PCB Page 50 of 79
EMC Test DataClient:
Contact:Standard:
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
Run # 2: Rx Mode Radiated Spurious Emissions, 30 - 10000 MHz. Operating Mode: 802.11g Larson PCB Antenna with 3.8 dBi Gain, Data Rate 54 Mbps Center Channel @ 2437 MHz
Other Spurious EmissionsFrequency Level Pol Detector Azimuth Height Comments
MHz dBμV/m v/h Limit Margin Pk/QP/Avg degrees meters12163.10 37.9 H 54.0 -16.1 AVG 128 1.012142.42 37.7 V 54.0 -16.3 AVG 14 1.09727.17 36.5 H 54.0 -17.5 AVG 58 1.09723.17 36.3 V 54.0 -17.7 AVG 0 1.04851.25 35.3 H 54.0 -18.7 AVG 130 1.07330.83 33.7 H 54.0 -20.3 AVG 0 1.07331.00 33.6 V 54.0 -20.4 AVG 237 1.04851.42 33.0 V 54.0 -21.0 AVG 196 1.9
12163.10 50.2 H 74.0 -23.8 PK 128 1.04851.42 49.5 V 74.0 -24.5 PK 196 1.94851.25 48.9 H 74.0 -25.1 PK 130 1.0
12142.42 48.7 V 74.0 -25.3 PK 14 1.09723.17 48.2 V 74.0 -25.8 PK 0 1.09727.17 48.1 H 74.0 -25.9 PK 58 1.07330.83 45.9 H 74.0 -28.1 PK 0 1.07331.00 45.0 V 74.0 -29.0 PK 237 1.0
Note 1:
15.209 / 15.247
For emissions in restricted bands, the limit of 15.209 was used. For all other emissions, the limit was set 20dB below the level of the fundamental and measured in 100kHz.
T69413_FCC_DTS.xls RX PCB Page 51 of 79
EMC Test DataClient:
Contact:Standard:
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
Run # 3: Rx Mode Radiated Spurious Emissions, 30 - 16000 MHz. Operating Mode: 802.11aLaird Antenna with 5dBi Gain, Data Rate 54 MbpsCenter Channel @ 5785 MHz
Other Spurious EmissionsFrequency Level Pol Detector Azimuth Height Comments
MHz dBμV/m v/h Limit Margin Pk/QP/Avg degrees meters11568.50 38.2 H 54.0 -15.8 AVG 255 1.311568.86 38.1 V 54.0 -15.9 AVG 146 1.05786.25 33.2 H 54.0 -20.8 AVG 167 1.25784.14 32.9 V 54.0 -21.1 AVG 8 1.0
11568.50 49.9 H 74.0 -24.1 PK 255 1.311568.86 49.6 V 74.0 -24.4 PK 146 1.05786.25 45.9 H 74.0 -28.1 PK 167 1.25784.14 43.8 V 74.0 -30.2 PK 8 1.0
15.209 / 15.247
Test Location: SVOATS #1 EUT Voltage: Powered from Host SystemTest Engineer: Rafael Varelas Config Change: None
Date of Test: 1/22/2008 Config. Used: 1
T69413_FCC_DTS.xls RX PCB Page 52 of 79
EMC Test DataClient:
Contact:Standard:
Test Specific Details
General Test Configuration
Ambient Conditions: 18.6 °C41 %
Summary of Results
Pass / FailPassPass
-PassPass
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna ConnectorsT-Log Number: T69413
Account Manager: Dean EriksenRon Seide15.247 / 15.E / RSS-210 Class: N/A
RSS 210 and FCC 15.247 (DTS) Antenna Port MeasurementsPower, PSD, Bandwidth and Spurious Emissions
Objective: The objective of this test session is to perform final qualification testing of the EUT with respect to the specification listed above.
Date of Test: 2/28/2008 Config. Used: 1Test Engineer: Rafael Varelas Config Change: NoneTest Location: Fremont Chamber #4 Host Unit Voltage 120V/60Hz
The EUT was connected to the spectrum analyzer or power meter via a suitable attenuator. All measurements were made on a single chain.
All measurements have been corrected to allow for the external attenuators used.
Temperature:Rel. Humidity:
1 Output Power 15.247(b)Run # Test Performed Limit
2 6dB Bandwidth 15.247(a)
3 Power spectral Density (PSD) 15.247(d)4 Spurious emissions 15.247(b)
2 99% Bandwidth RSS GEN
Deviations From The StandardNo deviations were made from the requirements of the standard.
Modifications Made During TestingNo modifications were made to the EUT during testing
Result / Margin15.6 dBm (36.3 mW)
-8.3 dBm/3kHz
16.5 MHz17.5 MHz
More than 20dB below limit
T69413_FCC_DTS.xls 5GHz DTS Antenna 2-28 Page 53 of 79
EMC Test DataClient:
Contact:Standard:
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna ConnectorsT-Log Number: T69413
Account Manager: Dean EriksenRon Seide15.247 / 15.E / RSS-210 Class: N/A
Run #1: Output Power
Power Antenna Setting2 (dBm) 1 mW Gain (dBi) dBm W (dBm) 3 mW
Max 15.6 36.3 5.0 Pass 20.6 0.115 7.5 5.6Max 14.6 28.6 5.0 Pass 19.6 0.091 5.3 3.4Max 15.3 34.0 5.0 Pass 20.3 0.108 6.0 4.0
Note 1:
Note 2:
Run #2: Signal Bandwidth
6dB 99%Max 1.0MHz 16.5 17.5Max 1.0MHz 16.4 17.5Max 1.0MHz 16.4 17.5
Note 1:
Output PowerFrequency (MHz)
Output PowerResult EIRP Note 2
57455785
574557855805
Output power measured using a spectrum analyzer (see plots below):RBW=1MHz, VB=3 MHz, sample detector, max hold for at least 60 seconds (transmitted signal was not continuous) and power integration over 50MHzPower setting - the software power setting used during testing, included for reference only.
Power Setting Frequency (MHz) Resolution
BandwidthBandwidth (MHz)
5805
99% bandwidth measured in accordance with RSS GEN, with RB > 1% of the span and VB > 3xRB
T69413_FCC_DTS.xls 5GHz DTS Antenna 2-28 Page 54 of 79
EMC Test DataClient:
Contact:Standard:
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna ConnectorsT-Log Number: T69413
Account Manager: Dean EriksenRon Seide15.247 / 15.E / RSS-210 Class: N/A
T69413_FCC_DTS.xls 5GHz DTS Antenna 2-28 Page 55 of 79
EMC Test DataClient:
Contact:Standard:
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna ConnectorsT-Log Number: T69413
Account Manager: Dean EriksenRon Seide15.247 / 15.E / RSS-210 Class: N/A
T69413_FCC_DTS.xls 5GHz DTS Antenna 2-28 Page 56 of 79
EMC Test DataClient:
Contact:Standard:
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna ConnectorsT-Log Number: T69413
Account Manager: Dean EriksenRon Seide15.247 / 15.E / RSS-210 Class: N/A
T69413_FCC_DTS.xls 5GHz DTS Antenna 2-28 Page 57 of 79
EMC Test DataClient:
Contact:Standard:
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna ConnectorsT-Log Number: T69413
Account Manager: Dean EriksenRon Seide15.247 / 15.E / RSS-210 Class: N/A
Run #3: Power spectral Density
Power Limit ResultSetting dBm/3kHz
Max 8.0 PassMax 8.0 PassMax 8.0 Pass
Note 1:
5784.98 -14.5
Frequency (MHz) PSD(dBm/3kHz) Note 1
5804.98 -8.3
Power spectral density measured using RB=3 kHz, VB=10kHz, analyzer with peak detector and with a sweep time set to ensure a dwell time of at least 1 second per 3kHz. The measurement is made at the frequency of PPSD determined from preliminary scans using RB=3kHz using multiple sweeps at a faster rate over the 6dB bandwidth of the signal.
5744.97 -12.3
T69413_FCC_DTS.xls 5GHz DTS Antenna 2-28 Page 58 of 79
EMC Test DataClient:
Contact:Standard:
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna ConnectorsT-Log Number: T69413
Account Manager: Dean EriksenRon Seide15.247 / 15.E / RSS-210 Class: N/A
T69413_FCC_DTS.xls 5GHz DTS Antenna 2-28 Page 59 of 79
EMC Test DataClient:
Contact:Standard:
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna ConnectorsT-Log Number: T69413
Account Manager: Dean EriksenRon Seide15.247 / 15.E / RSS-210 Class: N/A
Run #4: Out of Band Spurious Emissions
Frequency (MHz) Limit Result
-20dBc Pass
Plots for low channel, power setting(s) = Max
5745 -20dBc Pass-20dBc Pass5785
5805
T69413_FCC_DTS.xls 5GHz DTS Antenna 2-28 Page 60 of 79
EMC Test DataClient:
Contact:Standard:
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna ConnectorsT-Log Number: T69413
Account Manager: Dean EriksenRon Seide15.247 / 15.E / RSS-210 Class: N/A
Plots for low channel, power setting(s) = Max
Plots for low channel, power setting(s) = Max
T69413_FCC_DTS.xls 5GHz DTS Antenna 2-28 Page 61 of 79
EMC Test DataClient:
Contact:Standard:
Test Specific Details
General Test Configuration
Ambient Conditions: 20 °C42 %
Summary of Results
Pass / FailPassPass
-PassPass
Summit Data Communications Job Number: J68959
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna ConnectorsT-Log Number: T69413
Account Manager: Dean Eriksen
RSS 210 and FCC 15.247 (DTS) Antenna Port MeasurementsPower, PSD, Bandwidth and Spurious Emissions (802.11g)
Objective: The objective of this test session is to perform final qualification testing of the EUT with respect to the specification listed above.
Date of Test: 1/14/2008 Config. Used: 1Test Engineer: Mehran Birgani Config Change: NoneTest Location: Chamber #2 EUT Voltage: Power from host
The EUT was connected to the spectrum analyzer or power meter via a suitable attenuator. All measurements were made on a single chain.
All measurements have been corrected to allow for the external attenuators used.
Temperature:Rel. Humidity:
Run # Test Performed Limit Result / Margin1 Output Power 15.247(b) 24.1dBm (258.2mW)2 6dB Bandwidth 15.247(a) 16.5 MHz2 99% Bandwidth RSS GEN 17.2 MHz3 Power spectral Density (PSD) 15.247(d) -10.9 dBm/3kHz4 Spurious emissions 15.247(b) More than 20dB below the limit.
Modifications Made During TestingNo modifications were made to the EUT during testing
Deviations From The StandardNo deviations were made from the requirements of the standard.
T69413_FCC_DTS.xls G Mode Ant Port New Module Page 62 of 79
EMC Test DataClient:
Contact:Standard:
Summit Data Communications Job Number: J68959
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna ConnectorsT-Log Number: T69413
Account Manager: Dean Eriksen
Run #1: Output Power
Power Antenna Setting2 (dBm) 1 mW Gain (dBi) dBm W (dBm) 3 mW
Max 24.1 258.2 3.8 Pass 27.9 0.619 10.7 11.7Max 23.7 234.4 3.8 Pass 27.5 0.562 10.8 12.0Max 23.2 208.4 3.8 Pass 27.0 0.500 10.9 12.3
Note 1:
Note 2:Note 3:
Run #2: Signal Bandwidth
6dB 99%Max 1MHz 16.5 17.1Max 1MHz 16.6 17.2Max 1MHz 16.5 17.1
Note 1:
Output Power
241224372462
Frequency (MHz)Output Power
Result EIRP Note 2
Output power measured using a spectrum analyzer (see plots below):RBW=1MHz, VB=3 MHz, peak detector, max hold (transmitted signal was not continuous) and power integration over 50 MHz. The output power limit is 30dBm.Power setting - the software power setting used during testing, included for reference only.Power measured using average power sensor and is included for reference only.
Power Setting Frequency (MHz) Resolution
BandwidthBandwidth (MHz)
241224372462
99% bandwidth measured in accordance with RSS GEN, with RB > 1% of the span and VB > 3xRB
T69413_FCC_DTS.xls G Mode Ant Port New Module Page 63 of 79
EMC Test DataClient:
Contact:Standard:
Summit Data Communications Job Number: J68959
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna ConnectorsT-Log Number: T69413
Account Manager: Dean Eriksen
T69413_FCC_DTS.xls G Mode Ant Port New Module Page 64 of 79
EMC Test DataClient:
Contact:Standard:
Summit Data Communications Job Number: J68959
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna ConnectorsT-Log Number: T69413
Account Manager: Dean Eriksen
T69413_FCC_DTS.xls G Mode Ant Port New Module Page 65 of 79
EMC Test DataClient:
Contact:Standard:
Summit Data Communications Job Number: J68959
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna ConnectorsT-Log Number: T69413
Account Manager: Dean Eriksen
T69413_FCC_DTS.xls G Mode Ant Port New Module Page 66 of 79
EMC Test DataClient:
Contact:Standard:
Summit Data Communications Job Number: J68959
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna ConnectorsT-Log Number: T69413
Account Manager: Dean Eriksen
Run #3: Power spectral Density
Power Limit ResultSetting dBm/3kHz
Max 8.0 PassMax 8.0 PassMax 8.0 Pass
Note 1:
Frequency (MHz) PSD(dBm/3kHz) Note 1
2412 -10.92437 -10.92462 -11.4
Power spectral density measured using RB=3 kHz, VB=10kHz, analyzer with peak detector and with a sweep time set to ensure a dwell time of at least 1 second per 3kHz. The measurement is made at the frequency of PPSD determined from preliminary scans using RB=3kHz using multiple sweeps at a faster rate over the 6dB bandwidth of the signal.
T69413_FCC_DTS.xls G Mode Ant Port New Module Page 67 of 79
EMC Test DataClient:
Contact:Standard:
Summit Data Communications Job Number: J68959
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna ConnectorsT-Log Number: T69413
Account Manager: Dean Eriksen
T69413_FCC_DTS.xls G Mode Ant Port New Module Page 68 of 79
EMC Test DataClient:
Contact:Standard:
Summit Data Communications Job Number: J68959
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna ConnectorsT-Log Number: T69413
Account Manager: Dean Eriksen
Run #4: Out of Band Spurious Emissions
Frequency (MHz) Limit Result
2412 -20dBc Pass2437 -20dBc Pass
Plots for center channel, power setting(s) = Max
2462 -20dBc Pass
Plots for low channel, power setting(s) = Max
T69413_FCC_DTS.xls G Mode Ant Port New Module Page 69 of 79
EMC Test DataClient:
Contact:Standard:
Summit Data Communications Job Number: J68959
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna ConnectorsT-Log Number: T69413
Account Manager: Dean Eriksen
Plots for high channel, power setting(s) = Max
T69413_FCC_DTS.xls G Mode Ant Port New Module Page 70 of 79
EMC Test DataClient:
Contact:Standard:
Test Specific Details
General Test Configuration
Ambient Conditions: 20 °C42 %
Summary of Results
Pass / FailPassPass
-PassPass
Deviations From The StandardNo deviations were made from the requirements of the standard.
Modifications Made During TestingNo modifications were made to the EUT during testing
4 Spurious emissions 15.247(b) More than 20dB below the limit.
2 99% Bandwidth RSS GEN 12.8 MHz2 6dB Bandwidth 15.247(a) 9.1 MHz
3 Power spectral Density (PSD) 15.247(d) 7.5 dBm/3kHz
1 Output Power 15.247(b) 23.8dBm (241mW)Run # Test Performed Limit Result / Margin
The EUT was connected to the spectrum analyzer or power meter via a suitable attenuator. All measurements were made on a single chain.
All measurements have been corrected to allow for the external attenuators used.
Temperature:Rel. Humidity:
Test Location: Chamber #2 EUT Voltage: Power from hostTest Engineer: J. Caizzi & M. Birgani Config Change: None
RSS 210 and FCC 15.247 (DTS) Antenna Port MeasurementsPower, PSD, Bandwidth and Spurious Emissions (802.11b)
Objective: The objective of this test session is to perform final qualification testing of the EUT with respect to the specification listed above.
Date of Test: 1/15/2008 Config. Used: 1
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna ConnectorsT-Log Number: T69413
Account Manager: Dean Eriksen
T69413_FCC_DTS.xls B Mode Ant Port New Module Page 71 of 79
EMC Test DataClient:
Contact:Standard:
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna ConnectorsT-Log Number: T69413
Account Manager: Dean Eriksen
Run #1: Output Power
Power Antenna Setting2 (dBm) 1 mW Gain (dBi) dBm W (dBm) 3 mW
Max 23.0 198.6 3.8 Pass 26.8 0.476 14.9 31.2Max 23.8 241.0 3.8 Pass 27.6 0.578 14.8 30.2Max 23.4 218.8 3.8 Pass 27.2 0.525 14.4 27.5
Note 1:
Note 2:Note 3:
Run #2: Signal Bandwidth
6dB 99%Max 1MHz 10.3 12.8Max 1MHz 10.3 12.8Max 1MHz 9.1 12.7
Note 1:
24372462
99% bandwidth measured in accordance with RSS GEN, with RB > 1% of the span and VB > 3xRB
Power setting - the software power setting used during testing, included for reference only.Power measured using average power sensor and is included for reference only.
Power Setting Frequency (MHz) Resolution
BandwidthBandwidth (MHz)
2412
241224372462
Output power measured using a spectrum analyzer (see plots below):RBW=1MHz, VB=3 MHz, peak detector, max hold (transmitted signal was not continuous) and power integration over 50 MHz. The output power limit is 30dBm.
Output PowerFrequency (MHz)
Output PowerResult EIRP Note 2
T69413_FCC_DTS.xls B Mode Ant Port New Module Page 72 of 79
EMC Test DataClient:
Contact:Standard:
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna ConnectorsT-Log Number: T69413
Account Manager: Dean Eriksen
T69413_FCC_DTS.xls B Mode Ant Port New Module Page 73 of 79
EMC Test DataClient:
Contact:Standard:
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna ConnectorsT-Log Number: T69413
Account Manager: Dean Eriksen
T69413_FCC_DTS.xls B Mode Ant Port New Module Page 74 of 79
EMC Test DataClient:
Contact:Standard:
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna ConnectorsT-Log Number: T69413
Account Manager: Dean Eriksen
T69413_FCC_DTS.xls B Mode Ant Port New Module Page 75 of 79
EMC Test DataClient:
Contact:Standard:
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna ConnectorsT-Log Number: T69413
Account Manager: Dean Eriksen
Run #3: Power spectral Density
Power Limit ResultSetting dBm/3kHz
Max 8.0 PassMax 8.0 PassMax 8.0 Pass
Note 1:
2462 5.5
Power spectral density measured using RB=3 kHz, VB=10kHz, analyzer with peak detector and with a sweep time set to ensure a dwell time of at least 1 second per 3kHz. The measurement is made at the frequency of PPSD determined from preliminary scans using RB=3kHz using multiple sweeps at a faster rate over the 6dB bandwidth of the signal.
2412 7.52437 4.2
Frequency (MHz) PSD(dBm/3kHz) Note 1
T69413_FCC_DTS.xls B Mode Ant Port New Module Page 76 of 79
EMC Test DataClient:
Contact:Standard:
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna ConnectorsT-Log Number: T69413
Account Manager: Dean Eriksen
T69413_FCC_DTS.xls B Mode Ant Port New Module Page 77 of 79
EMC Test DataClient:
Contact:Standard:
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna ConnectorsT-Log Number: T69413
Account Manager: Dean Eriksen
Run #4: Out of Band Spurious Emissions
Plots for center channel, power setting(s) = Max
2437 -20dBc Pass2462 -20dBc Pass
2412 -20dBc Pass
Plots for low channel, power setting(s) = Max
Frequency (MHz) Limit Result
T69413_FCC_DTS.xls B Mode Ant Port New Module Page 78 of 79
EMC Test DataClient:
Contact:Standard:
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna ConnectorsT-Log Number: T69413
Account Manager: Dean Eriksen
Plots for high channel, power setting(s) = Max
T69413_FCC_DTS.xls B Mode Ant Port New Module Page 79 of 79
Elliott Laboratories, Inc. -- EMC Department Test Report Report Date: March 5, 2008
File: R70599 Rev 1 Appendix Page 3 of 10
EXHIBIT 3: Photographs of Test Configurations
4 Pages
Elliott Laboratories, Inc. -- EMC Department Test Report Report Date: March 5, 2008
File: R70599 Rev 1 Appendix Page 4 of 10
EXHIBIT 4: Proposed FCC ID Label & Label Location
Elliott Laboratories, Inc. -- EMC Department Test Report Report Date: March 5, 2008
File: R70599 Rev 1 Appendix Page 5 of 10
EXHIBIT 5: Detailed Photographs
of Summit Data Communications Model SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors Construction
4 Pages
Elliott Laboratories, Inc. -- EMC Department Test Report Report Date: March 5, 2008
File: R70599 Rev 1 Appendix Page 6 of 10
EXHIBIT 6: Operator's Manual
for Summit Data Communications Model SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
9 Pages
Summit Manufacturing Utility (SMU) Guide 03/20/08
Summit Data Communications, Inc. i CONFIDENTIAL
Summit Data Communications, Inc. Summit Manufacturing Utility (SMU) Guide
Software Version 2.01 for Windows CE and Windows Mobile
Summit Manufacturing Utility (SMU) Guide 03/20/08
Summit Data Communications, Inc. ii CONFIDENTIAL
Table of Contents
1.0 SUMMIT PRODUCTS AND SUMMIT SOFTWARE ...............................................................................1 1.1 SUMMIT SOFTWARE ......................................................................................................................................1 1.2 INSTALLING SUMMIT SOFTWARE ..................................................................................................................2 1.3 INSTALLING THE RADIO ................................................................................................................................2 1.4 LOADING SMU .............................................................................................................................................3 1.5 REMOVING SMU FROM THE DEVICE.............................................................................................................3
2.0 THE SUMMIT MANUFACTURING UTILITY.........................................................................................4 2.1 USING SMU..................................................................................................................................................4 2.2 SMU-CONFIGURABLE SETTINGS ..................................................................................................................4
2.2.1 Unit Setting: Administrative Override .....................................................................................................4 2.2.2 Unit Setting: Import/Export .....................................................................................................................4 2.2.3 Regulatory Domain..................................................................................................................................5 2.2.4 Bluetooth Coexistence..............................................................................................................................6 2.2.5 BG Max Antenna Adjust and A Max Antenna Adjust...............................................................................6
APPENDIX: FCC INFORMATION .........................................................................................................................8
Summit Manufacturing Utility (SMU) Guide 03/20/08
Summit Data Communications, Inc. 1 CONFIDENTIAL
1.0 Summit Products and Summit Software Thank you for choosing one of the following radio modules or cards from Summit Data Communications, Inc.: • SDC-CF10G 802.11g compact flash radio module with antenna connectors • SDC-PC10G 802.11g PCMCIA radio module with antenna connectors • SDC-MCF10G 802.11g miniature compact flash radio module with antenna connectors • SDC-CF20G 802.11g compact flash radio card with integrated antennas • SDC-PC20G 802.11g PCMCIA radio card with integrated antennas • SDC-CF10AG 802.11a/g compact flash radio module with antenna connectors • SDC-PC10AG 802.11a/g PCMCIA radio module with antenna connectors For an overview of Summit products, go to http://www.summitdatacom.com/products.htm. Each Summit G radio enables a computing device to communicate to a computing network using the IEEE 802.11g and IEEE 802.11b protocols. The hardware components and software for all Summit G radios are the same. A 20G version is a 10G version with integrated antennas. A PCMCIA version is a CF version in a specially designed CF-to-PCMCIA carrier. The miniature CF version is essentially the CF version with a different layout and a different (Molex) connector. Each Summit AG radio enables a computing device to communicate to a computing network using the IEEE 802.11a, 802.11g, and IEEE 802.11b protocols. The hardware components and software for all Summit AG radios are the same.
1.1 Summit Software The software that Summit provides for its radios consists of the following components: • A device driver for the operating system running on the computing device that houses the radio • An integrated IEEE 802.1X supplicant • SCU as well as other utilities that use a software developer’s kit (SDK) to interact with the driver • A service that displays in the Windows System Tray an icon that provides a visual status for the
Summit radio and enables the user to launch SCU by tapping the icon Summit supports its software on the following operating systems: • Windows CE 4.2, Windows Mobile 2003 or Pocket PC 2003 • Windows CE 5.0, Windows Mobile 5.0, Windows Mobile 6.0 • Windows XP Professional and Windows XP Embedded SCU is designed for end users and administrators of mobile devices that use a Summit radio module. SCU provides a GUI for access to all of its functions. Access to these functions also is available through an API that is provided to every Summit customer. A Summit customer can use the API to manage the radio from another utility, such as one that the customer provides with its mobile devices. Using SCU, an administrator can configure radio and security settings in a configuration profile, or config. For a list of config settings, see the Summit User’s Guide. An administrator also can use SCU to define a set of global settings, which apply to all configs and to SCU. For a list of global settings that can be configured using SCU, see the Summit User’s Guide. The Summit Manufacturing Utility (SMU) allows for the configuration of certain radio settings that cannot be configured through SCU. Summit offers SMU only to its direct customers:
Summit Manufacturing Utility (SMU) Guide 03/20/08
Summit Data Communications, Inc. 2 CONFIDENTIAL
• Device manufacturers that embed Summit radios in their devices or offer Summit radios as device options
• Value-added distributors that must configure Summit radios for resellers and end-customers This guide is for SMU V2.01 running on Windows CE or Windows Mobile. To use SMU in a computing device, you first must perform the following steps: • Install Summit software on a mobile computing device that runs a supported operating system • Install the Summit radio on the device • Load SMU on the device It is recommended that you complete the steps in the order shown above. If you insert the radio in your device before you install the software, then the operating system will flag the radio as unknown and display the “Found New Hardware Wizard” screen, and you must select “Cancel” to cancel the Hardware Wizard. Once you have finished using SMU, you must remove SMU from the device. SMU is for the exclusive use of those Summit customers to which Summit makes SMU available. Those customers are not permitted to redistribute SMU to anyone.
1.2 Installing Summit Software Summit software is in a .cab file, which is the software equivalent of a “file cabinet”. A Summit .cab file contains all software components, including the device driver and the Summit Client Utility (SCU). To install the Summit software, perform these tasks: • Download the appropriate .cab file for the operating system and processor of your device. You can
obtain your device’s operating system and processor from the system information under Windows Control Panel (Tap Start, then Settings, and then System or Control Panel) - Pocket PC or Mobile: Select a .cab file with a name that begins with “mobile”. - CE .NET: Do a search on your device’s processor to determine if it is an ARM v4i processor or
an ARM v4 processor. If it is an ARM v4i processor, select a .cab file with a name that begins with “sdc_armv4i”. If it is an ARM v4 processor, select a .cab file with a name that begins with “sdc_armv4”.
• Copy the file to your device using a supported file transfer mechanism. Common methods of moving the file include: - Place the file on a supported Compact Flash or SD memory card and use that card for copying the
file to the device. - Use a program such as FTP or Microsoft ActiveSync.
• On the device, use the resident File Explorer program to locate the .cab file. • Run the .cab file by single-clicking the file or by right-clicking and selecting “run”. • If asked to replace any existing files on the device, answer “Yes to all”.
1.3 Installing the Radio Once you have installed the Summit software, you must install the Summit radio card or module. To install a 20G Series radio card, you simply insert the card in an external card slot. To install a 10G Series or 10AG Series radio module, you must complete two types of connections: • Module to device: Mate a connector on the end of the module to a connector on the device • Antenna(s) to module: Use an antenna cable that mates with the antenna on one end and with the
radio module’s U.FL connector on the other end
Summit Manufacturing Utility (SMU) Guide 03/20/08
Summit Data Communications, Inc. 3 CONFIDENTIAL
The standard approach is to install the module in the device first and then connect the antenna(s). If the antenna connectors on the radio are not visible when the radio is installed, however, then you will need to connect the antenna(s) before installing the radio. To install the radio, insert the card into the device until the CF, PCMCIA, or Molex connector mates with a connector on the device. To connect the antennas, take each antenna and its cable, which is fitted with a Hirose U.FL connector, and attach the antenna cable to the radio module by mating the U.FL connector on the antenna cable with a U.FL connector on the radio module. Connect the primary (or only) antenna to the main connector, which is located nearer to the right edge of the card. If there is a second antenna, connect it to the auxiliary antenna connector, which is located nearer to the left edge of the card. Locations of antenna connectors for the CF10G are shown at the right.
To comply with FCC RF exposure compliance requirements, the antenna used with a Summit radio module must be installed to provide a separation distance of at least 20 cm from all persons and must not be co-located or operating in conjunction with any other antenna or transmitter. The user’s manual for the device that embeds or otherwise uses a Summit radio should not provide information on how to install a radio module within a device or remove an installed radio module from a device.
1.4 Loading SMU For Windows CE or Mobile, identify the appropriate smu.exe file for the operating system and processor of your device. Download the file, and copy it to your mobile device using a supported file transfer mechanism. For Windows XP, download the smu.exe file for XP and copy it to your mobile device.
1.5 Removing SMU from the Device SMU is designed exclusively for Summit direct customers and not for device end-users or administrators. Once you have used SMU to configure radio settings on a device that will be used by someone in another organization, you must remove SMU from the device. To do so, simply erase the file smu.exe.
Summit Manufacturing Utility (SMU) Guide 03/20/08
Summit Data Communications, Inc. 4 CONFIDENTIAL
2.0 The Summit Manufacturing Utility
2.1 Using SMU To run SMU, use File Explorer or Windows Explorer to locate the smu.exe file, and tap the file to execute it. SMU will display a graphical user interface (GUI) like the one shown at the right. The values displayed on the SMU window may not reflect what is programmed on the radio or on the device. Use the selection boxes, radio buttons, and input fields to select the desired card and unit settings, and then tap the Commit Changes button. Once you tap Commit, SMU uses the Summit application programming interface (in the Summit software developer’s kit, or SDK) and programmatically does the following: • Gathers the specified settings • Calls SetGlobalSettings • Calls updateSROM It takes about 30 seconds from when you tap the button to when the settings are stored.
2.2 SMU-Configurable Settings There are two types of global settings that can be configured only through SMU: • Unit Settings: Stored in the registry of the unit on which SMU is run. • Card Settings: Stored in the SROM on the radio module, or card. If you move the card from one
device to another, the card will retain these settings, provided that the device is running a version of the driver as current as the version with which SMU was used.
2.2.1 Unit Setting: Administrative Override When the administrative override setting is On, then the Admin Login button is removed from the SCU Main window, and SCU considers the user in Admin mode.
2.2.2 Unit Setting: Import/Export When the import/export setting is On, then a user logged into SCU as an administrator will see an Import/Export button on the SCU Main window, as shown on the next page. By tapping that button, the user will view a dialog box on which he or she can: • Export global settings, all standard SCU profiles, and the special ThirdPartyConfig profile from the
SCU area of a device’s registry to a file that can be transferred to another device • Import global settings, all standard SCU profiles, and the special ThirdPartyConfig profile from a file
(created using the Export facility) to the SCU area of a device’s registry so that SCU can use it - If “Add to existing” is selected, then the imported information will be merged with information
that was in the registry previously - If “Replace” is selected, then the imported information will overwrite the information that was in
the registry previously
Summit Manufacturing Utility (SMU) Guide 03/20/08
Summit Data Communications, Inc. 5 CONFIDENTIAL
SCU Main window with Import/Export button
Import/Export dialog box
2.2.3 Regulatory Domain A Summit radio’s regulatory domain determines the radio’s maximum transmit power and the frequency channels available to the radio. Summit radios are certified for operation in three regulatory domains: • FCC, which is governed by the Federal Communications Commission, the regulatory agency and
standards body for the Americas and parts of Asia • ETSI, which is governed by the European Telecommunications Standards Institute, the standards
body applicable to most of Europe, Africa, the Middle East and parts of Asia • TELEC, which is governed by the Telecom Engineering Center, the standards body for Japan A Summit radio can be programmed for any one of these three domains. Alternatively, a Summit radio can be programmed for a Worldwide domain, which enables the radio to be used in any domain. “Worldwide” value is the default value for the setting. An 802.11g radio, which supports both 802.11b and 802.11g, operates in the 2.4 GHz frequency spectrum, where up to 14 channels, numbered 1 to 14, are defined. Adjacent channels overlap. In fact, there must be five channels of separation to avoid overlap and co-channel interference. As an example, channels 1, 6, and 11 are non-overlapping. An 802.11a/g radio operates in both the 2.4 GHz spectrum for 802.11b and 802.11g and the 5 GHz spectrum for 802.11a. The 5 GHz frequency spectrum is grouped into sets of channels, or bands: • UNII-1: 36, 40, 44, 48 • UNII-2: 52, 56, 60, 64 • Intermediate: 100, 104, 108, 112, 116, 120, 124, 128, 132, 136, 140 • UNII-3: 149, 153, 157, 161 None of the channels in the 5 GHz bands overlap. Dynamic Frequency Selection, or DFS, is required for the UNII-2 and Intermediate bands. With V2.01 of Summit software, a Summit AG radio programmed for the FCC regulatory domain does not support DFS or the bands that require DFS.
Summit Manufacturing Utility (SMU) Guide 03/20/08
Summit Data Communications, Inc. 6 CONFIDENTIAL
The table below shows the channels and the nominal maximum transmit power values that are supported in each regulatory domain with V2.01:
2.4 GHz 5 GHz (AG radio only) Domain Channels Tx (.11b) Channels Tx FCC 1-11 18 dBm UNII-1 and UNII-3 14 dBm ETSI 1-13 18 dBm UNII-1, UNII-2, and Intermediate 14 dBm TELEC 1-14 17 dBm UNII-1 and UNII-2, plus
additional channels: 34, 38, 42, 46 14 dBm
WorldWide: no 802.11d 1-11 17 dBm UNII-1 14 dBm WorldWide: 802.11d All 18 dBm All 14 dBm V2.01 of Summit software supports a performance-optimized version of IEEE 802.11d, the ratified standard for the operation of a wireless LAN client radio in multiple regulatory domains. This 802.11d support ensures that a Summit radio that is programmed for the WorldWide regulatory domain can adjust its 2.4 GHz and 5 GHz channel sets and maximum transmit power settings to match those for the country specified in the Country information element transmitted in an access point’s (AP’s) association response. To take advantage of 802.11d support in Summit software and ensure optimal performance, an organization that uses devices with Summit radios must make sure that every AP on the wireless LAN supports 802.11d, specifies the correct Country information element, and broadcasts its SSIDs. The device manufacturer or other organization that uses the Summit Manufacturing Utility to program Summit radios must ensure that every Summit radio is programmed for a regulatory domain of WorldWide. A radio that is programmed for a regulatory domain of FCC, ETSI, or TELEC will ignore the Country information elements from APs. A Summit radio uses 802.11d only when it tries to associate on an SSID for the first time. During the initial association process, if the AP provides a Country information element, then the radio configures its channel set and maximum transmit power for that country. The radio assumes that all APs with the same SSID have the same 802.11d country code; as a result, the radio effectively ignores the country code when roaming from one AP to another. The radio will continue to use the channel set and maximum transmit power for a country until the radio disconnects from the WLAN (with that SSID).
2.2.4 Bluetooth Coexistence When Bluetooth coexistence is on, pins 39 and 45 of the radio are used for two-wire Bluetooth coexistence handshaking. When Bluetooth coexistence is off, the handshaking lines are not used. The default value is “Off”.
2.2.5 BG Max Antenna Adjust and A Max Antenna Adjust The last two card settings provides for an adjustment to the radio’s transmit power to accommodate a 2.4 GHz (802.11b/g) antenna, a 5 GHz (802.11a) antenna, or a dual-band antenna with a gain greater than 0 dBm. The values for each of these settings, “BG Max antenna adjust” and “A Max antenna adjust”, is the degree of antenna attenuation expressed as a percentage of dBm, not milliwatts (mW), with the percentage based on a TELEC 50 mW test. On the next page is a table of popular dBm values and their corresponding mW values. Here is an example: In ETSI, to ensure that the maximum 802.11b transmit power is 50 mW, use 94%: 94% x 18 dBm = 16.92 dBm = 50 mW The default value is “100%”.
Summit Manufacturing Utility (SMU) Guide 03/20/08
Summit Data Communications, Inc. 7 CONFIDENTIAL
dBm mW dBm mW dBm mW 20 100 15 31.6 10 10 19 79.4 14 25.1 8 6.3 18 63.1 13 20 6 4 17 50.1 12 15.8 3 2 16 39.8 11 12.6 0 1
Beginning with V1.03.23 of Summit software, the transmit power (Tx Power) value on the SCU Status window accounts for the transmit power adjustment set in SMU. As a result, the displayed value is the true transmit power of the Summit radio. In previous releases, the Status window displayed the transmit power without the adjustment, because SCU assumed that the antenna provided a gain that compensated for the adjustment. With previous releases, therefore, the displayed value was an estimate of EIRP and not a true radio transmit power value.
Summit Manufacturing Utility (SMU) Guide 03/20/08
Summit Data Communications, Inc. 8 CONFIDENTIAL
Appendix: FCC Information Note: All declarations and instructions for the SDC-CF10G apply to other Summit 802.11g radio modules and cards. Summit declares that SDC-CF10G (FCC ID: TWG-SDCCF10G) is limited in CH1~CH11 for 2.4 GHz by specified firmware controlled in U.S.A. This device is intended for host device manufacturers and integrators only under the following conditions: 1) The antenna must be installed such that 20 cm is maintained between the antenna and users, and 2) The transmitter module may not be co-located with any other transmitter or antenna. As long as the two conditions above are met, further transmitter test will not be required. However, the OEM integrator is still responsible for testing its end-product for any additional compliance requirements required with this module installed (for example, digital device emissions, PC peripheral requirements, etc.). IMPORTANT NOTE: In the event that the two conditions above cannot be met (for example certain device configurations or co-location with another transmitter), then the FCC authorization is no longer considered valid and the FCC ID cannot be used on the final product. In these circumstances, the OEM integrator will be responsible for re-evaluating the end product (including the transmitter) and obtaining a separate FCC authorization. • End Product Labeling This transmitter module is authorized only for use in device where the antenna may be installed such that 20 cm may be maintained between the antenna and users, for example, mobile data terminals (MDTs) and vehicle-mounted devices (VMDs). The final end product must be labeled in a visible area with the following: “Contains TX FCC ID: TWG-SDCCF10G”. • Manual Information That Must be Included The OEM integrator must not provide information to the end user regarding how to install or remove this RF module in the users manual of the end product which integrate this module. The users manual for OEM integrators must include the following information in a prominent location: “IMPORTANT NOTE: To comply with FCC RF exposure compliance requirements, the antenna used for this transmitter must be installed to provide a separation distance of at least 20 cm from all persons and must not be co-located or operating in conjunction with any other antenna or transmitter.” Federal Communication Commission Interference Statement This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one of the following measures: 1. Reorient or relocate the receiving antenna 2. Increase the separation between the equipment and receiver
Summit Manufacturing Utility (SMU) Guide 03/20/08
Summit Data Communications, Inc. 9 CONFIDENTIAL
3. Connect the equipment into an outlet on a circuit different from that to which the receiver is connected
4. Consult the dealer or an experienced radio/TV technician for help FCC Caution: Any changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate this equipment. 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. IMPORTANT NOTE: FCC Radiation Exposure Statement: This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed and operated with minimum distance 20cm between the radiator & your body. This transmitter must not be co-located or operating in conjunction with any other antenna or transmitter. Industry Canada To prevent radio interference to the licensed service, this device is intended to be operated indoors and away from windows to provide maximum shielding. Equipment (or its transmit antenna) that is installed outdoors is subject to licensing. This device has been designed to operate with the antennas listed below, and having a maximum gain of 5.1 dB. Antennas not included in this list or having a gain greater than 5.1 dB are strictly prohibited for use with this device. The required antenna impedance is 50 ohms. Manufacturer: Laird Centurion Model Name: NanoBlade Antenna Type: PCB Omnidirectional Gain at 2.40 GHz : 3.8 dBi Gain at 5.25 GHz: 5.1 dBi Gain at 5.80 GHz: 4.5 dBi Manufacturer: Volex Part Number: VLX-51004-A Antenna Type: Dipole Gain at 2.40 GHz : 2.3 dBi Gain at 5 GHz: 1.9 dBi Manufacturer: Larson Part Number: R380.500.314 Antenna Type: Dipole Gain at 2.40 GHz : 1.6 dBi Gain at 5 GHz: 5 dBi
Elliott Laboratories, Inc. -- EMC Department Test Report Report Date: March 5, 2008
File: R70599 Rev 1 Appendix Page 7 of 10
EXHIBIT 7: Block Diagram
of Summit Data Communications Model SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
1 Page
Elliott Laboratories, Inc. -- EMC Department Test Report Report Date: March 5, 2008
File: R70599 Rev 1 Appendix Page 8 of 10
EXHIBIT 8: Schematic Diagrams
for Summit Data Communications Model SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
6 Pages
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WCFB-108AGRev.04
0 6
WCFB-108AG_V04_S1WCFB-108AG_V04_S1.SCH
WCFB-108AG_V04_S2WCFB-108AG_V04_S2.SCH
WCFB-108AG_V04_S3WCFB-108AG_V04_S3.SCH
WCFB-108AG_V04_S4WCFB-108AG_V04_S4.SCH
WCFB-108AG_V04_S5WCFB-108AG_V04_S5.SCH
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Date: 6-Dec-2007 Sheet of File: C:\Documents and Settings\Jimmy_lin\��\11\WCFB-108AG_V04.DDBDrawn By:
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WCFB-108AGRev.04
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cad18_a7
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R69
4.7K
cad31_d10
ccbe3l_regl
ccbe1l_a8ccbe0l_ce1lcframel_d2
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R71
0
R67
0
d2
d14
PCI_AD_0A14 PCI_AD_1B14 PCI_AD_2D11 PCI_AD_3C14 PCI_AD_4D12 PCI_AD_5C12 PCI_AD_6C13 PCI_AD_7D13 PCI_AD_8E14 PCI_AD_9E13 PCI_AD_10E12 PCI_AD_11F11 PCI_AD_12F14 PCI_AD_13F12 PCI_AD_14F10 PCI_AD_15G10 PCI_AD_16H10 PCI_AD_17J11 PCI_AD_18J13 PCI_AD_19K14 PCI_AD_20K12 PCI_AD_21K13 PCI_AD_22L14 PCI_AD_23L12 PCI_AD_24M12 PCI_AD_25N14 PCI_AD_26M13 PCI_AD_27P14 PCI_AD_28L11 PCI_AD_29N13 PCI_AD_30P13 PCI_AD_31P12
PCI_CLKRUN_L N11
CSTSCHG D10
PCI_GNT_L M11PCI_REQ_L N12PCI_IDSEL L13PCI_PME_L P11PCI_CLK H13PCI_RST_L K10PCI_INT_L C11PCI_PAR F13PCI_SERR_L G14PCI_PERR_L G12PCI_STOP_L G13PCI_DEVSEL_L H14PCI_TRDY_L H12PCI_IRDY_L J14PCI_FRAME_L J12PCI_CBE_L_0 D14PCI_CBE_L_1 G11PCI_CBE_L_2 H11PCI_CBE_L_3 M14
U7A
BCM4318E
WCFB-108AG_V02_S1
gnd1
cad0_d32
cad1_d43
cad2_d54
cad3_d65
cad5_d76
ccbe0l_ce1l7
cad9_a108
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cad14_a910
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cgntl_wel36
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cad20_a614
cad21_a515
cad22_a416
cad23_a317
cad24_a218
cad25_a119
cad26_a020
cad27_d021
cad29_d122
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ccd2_d1127
ccd4_d1228
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cad8_d1531
cad10_ce2132
cvs1_vs1l33
cad13_iordl34
cad15_iowrl35
vcc38
cad19_a2539
cvs2_vs2l40
crstl_reset41
cserrl_waitl42
creql_inpackl43
ccbe3l_regl44
caudio_spkrl45
cstschg_stschgl46
cad28_d847
cad30_d948
cad31_d1049
cad21_cd2125
gnd50
J3 CONPCMCIA
cad0_d3cad1_d4cad3_d5cad5_d6cad7_d7ccbe0l_ce1l
cad9_a10cad11_oelcad14_a9ccbe1l_a8
cgntl_welcintl_ireql
cad26_a0cad25_a1cad24_a2cad23_a3cad22_a4cad21_a5cad20_a6
cad18_a7
cad27_d0cad29_d1
cclkrunl_wp
cad2_d11cad4_d12cad6_d13
cad8_d15cad10_ce2l
cad13cad15
crstl_resetcserrl_waitlcreql_inpacklccbe3l_regl
cstschgcad28_d8cad30_d9cad31_d10
vcc3_3
R75
20K
R74
20K
R70
20K
ccbe0l_ce1l
ccbe3l_regl
cad10_ce2l
d2
d14
C169
220pF
R80
4.7Kcserrl_waitl
R177
0
R178
10KR1790
vcc3_3
vcc3_3
R111 0
R11310K
coex1_bt_active
coex2_wlan_active
R180
10K
R181
10K
R183
10K
R184
10K
R182
10K
cad11_oel
cgntl_wel
cad13
cad15
crstl_reset
R112 0
R114 NP
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RF1 1
GND 2
RF2 3VC26
RFC5
VC14U10
HWS408
1 2R20
100
R6
100tr_sw_tx_pu
tr_sw_rx_pu g_rx_in
R3
100
R7
100
ant_sw_seln
ant_sw_selp
RF11
GND2
RF23 VC2 6
RFC 5
VC1 4U9
HWS408
C26.8pF
C4
33pF
C3
33pF
C1686.8pF
C5 6.8pF_NA
C6
33pF
C115
33pF
gphy_ext_lna_gain
R19
2.87K
R28 4.7k
11g_xtalin11g_xtalout
R42
100K
g_tx_out
4318_rx_inp4318_rx_inn
ant_sw_selnant_sw_selptr_sw_rx_putr_sw_tx_pugphy_tx_pugphy_rx_pu
gphy_tssi
BGREFP1
CMOUTF5
CP_FBN4
RF_DISABLE_LA8
PA_OUT N1
LNAINP J1
LNAINN K1
TEST_SEA7
EXT_POR_LC5
RXP_QH4
RXN_QG4
RXP_IF3
RXN_IF4
TXP_QC1
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TXP_ID2
TXN_ID1
XTALINP6
XTALOUTP5
FREF_2A2
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ANT_SELP B7
TR_SW_RX_PU B6
TR_SW_TX_PU C6
TX_PU A9
RX_PU A4
XTEMPRSSI B2
XTSSI2 D4
XTAL_PU P10
GPHY_EXT_LNA_GAIN B8
U7B
BCM4318E
C56 560pF
C3710pF
1
2
3
4
Y120MHZ 10PPMR22
10M
R23
221
C59 27pF
C50 27pF
11g_xtalin
11g_xtalout
L19
1.8nH
L166.8nH
R24
2.43k_NP
g_tx_outgphy_tx_pu
GND 9VB3
VR
EG
5
RFOUT 11
VD
ET
8
RFIN1
VEN2 GND 12
GND 10
VCC04
VD
ET
7N
C6
GN
D16
VC
C1
15
NC
14
VC
C2
13
GND 17
U6
SE2528L
L181.5nH
g_pa_out
vcc3_3
L15
MPZ2012S221Avcc3_3
vccgpa
C92
10pF
C91
1uF
C120
1pF
C25
10pF_NP
C117
1.8pF
C11
1.8pF
C112
1.6pF
C95 3.3pF
C7710pF
C941000pF
C93 1500pF
C30 15pF
C1134.7uF
C118 22pF
R18
2.2K
R1310
R151K
R1610
R1763.4
SE1
NC6
GND2 CS 5
DIFF2 3
DIFF1 4U4
HHM-1520
gphy_rx_pu
L10
1.5nH
L11
1.5nH4318_rx_inp
4318_rx_inn
L43.6nH
L53.6nH
B1
E2 E 4
C 3
U3
SGA8343L222nH_NP
g_rx_in
vccgpa
vccgpa
C33 18pF
C27 5.6pF
C28 18pF
C22 5.6pF
C19
1pF
C18 5.6pF
C10
1pF
R29 4.7k_NP
Cnpn6
Bpnp5
Epnp4
Enpn 1
Bnpn 2
Cpnp 3
U1
UMD3N
gphy_tssi
adc_vcm_2060
aphy_rx_qpaphy_rx_qnaphy_rx_ipaphy_rx_in
aphy_tx_qpaphy_tx_qnaphy_tx_ipaphy_tx_in
clk_4306_11a
rfg_main
rfg_aux
vtsense_flt
WCFB-108AG_V02_S2
vdda3
L13nH
C114 5.6pF 1 2D1
SMP1340-079
R12
200
gphy_ext_lna_gainR11
4.32KC24 6.8pF
D3 SMS3922
L322nH
C29 6.8pF
L17
22nH
C8 6.8pF
vccgpa
C21 5.6pF
1
2
3J7
UFL
1
2
3J6
UFL
R553.3K
R9
2.7k
R8
100clk_2060 clk_4306_11a
L20 10pF
L34
0.5pF
C1 1pF_NP
C146
39pF
C158
12pF_NP
WCFB-108AG
0603
0603
08 05
GND 1
IN 2
GND 3GND4
OUT5
GND6
U2
LTL1608
1 2 3 4 5 6
A
B
C
D
654321
D
C
B
A
Title
Number RevisionSize
B
Date: 6-Dec-2007 Sheet of File: C:\Documents and Settings\Jimmy_lin\��\11\WCFB-108AG_V04.DDBDrawn By:
4 6
Rev.04
L33
BLM15AG121SN
L25
BLM15AG121SN
rssinb_2060rssiwb_2060aphy_pa_pddet
aphy_sri_doaphy_sri_caphy_sri_eaphy_sri_di
aphy_pa_pdaphy_synth_pu
vdd2
060p
ad
cal_r_2060adc_vcm_2060
cp_fb_2060vco_in_2060bias_vco_2060
aphy_tx_ipaphy_tx_inaphy_tx_qpaphy_tx_qnaphy_sri_diaphy_sri_caphy_sri_eaphy_sri_do
rssinb_2060rssiwb_2060aphy_rx_qpaphy_rx_qnaphy_rx_ipaphy_rx_in
SE1
DC2
DIFF2 3
DIFF1 4
GND 5
NC6
U135.5GHz Balun
a_rx_in
R85100k
1
2
3
4
Y2
18pF,20MHz txp_2060txn_2060
R836.8K
R263k
vdd2060vco
vdd1
_lna
4
vdd_
loge
n17
vdd_
pad
38
vdd1
_pa
40
vdd2
_pa
45
vdd2
_lna
9
lna_
dvdd
1812
vddx
tal
35
vddv
co32
lna_
dvdd
3313
vddb
b224
vddb
b114
vdd_
rxm
ix10
vddp
ll34
dvdd
183
cal_r 22
adc_vcm 27
cp_fb 33
vco_in 31
biasvco 30
pwr_det 39
txip 18
txin 19
txqp 21
txqn 20
sri_di 47
sri_c 46
sri_e 2
sri_do 1
rssi_nb 16
rssi_wb 15
rxoutqp 28
rxoutqn 29
rxoutip 25
rxoutin 26
airline 11
vtemp 23
gnd1
_lna
5
gnd2
_lna
8
gnd1
_pa
41
gnd2
_pa
44
inn6 inp7
clk_out48
xtal_in37
xtal_in236
outn42 outp43
slug
gnd
49
U12
BCM2060WW
L143.3nH
R84
0 clk_2060
R27 0
R821.2k_NP
vtsense vtsense_flt
2060 dvdd pin decoupling
vdd2
060v
co
R101
2.7
INRSSIF2
IWRSSIF1
XNRSSID3
XWRSSIE1
XTSSI5E2
APHY_PA_CNTRL_0C7
APHY_EXT_LNA_GAIND7
APHY_EXT_LNA_PUD8
APHY_SRI_DOC9
APHY_SRI_CA11
APHY_SRI_EC8
APHY_SRI_DIB9
APHY_PA_PDD6
APHY_SYNTH_PUA10
U7E
BCM4318E
vddx
tal
C208
0.01uF
C203
100pF_NP
C96
100pF_NP
C204
1000pF
C207 1uF
C210 10pF
C209 150pF
vcc_radio
C90.75pF
C55
0.75pF
C6627pF
C6527pF
C184
2.2pF
C72
2.2pF
C188
2.2pF
C187
2.2pF
C186
2.2pF
vcc_radio
C195
2.2pF
C193
2.2pF
C191
2.2pF
C190
0.01uF
C197
2.2pF
C196
100pF_NP
C200
10uF
C32
2.2pF
C198
100pF
C199
10uF
vcc_radio
C206
2.2pF
C205
100pF
R81
0
vcc3_3
C67
2.2pF_NP
C35
2.2pF
C63
0.1uF
C42
100pF
C58
1uF_NP
C40
100pF_NP
WCFB-108AG_V02_S3
C15
12.
7pF_
NP
C15
22.
7pF_
NP
C15
32.
7pF_
NP
C15
42.
7pF_
NP
vcc3ar
vdd2060pad
vddxtal vdd2060vco
vcc3ar
WCFB-108AG
08050805
06 03
1 2 3 4 5 6
A
B
C
D
654321
D
C
B
A
Title
Number RevisionSize
B
Date: 6-Dec-2007 Sheet of File: C:\Documents and Settings\Jimmy_lin\��\11\WCFB-108AG_V04.DDBDrawn By:
5 6
Rev.04
L280.5pF_NP
L3022nH_NP
SE 1
DC 2
DIFF23
DIFF14
GND5
NC 6
U18
5.5GHz Balun
txp_2060
txn_2060
R890
R3310K
aphy_pa_pd R30
4.7K R86
4.7K
R871K
G1 S 2
D 3
Q2
FDN3338P
L26
MPZ2012S221A
1
gnd
23
ant14
gnd5
ant26
7
gnd
8 9
rx 10
gnd 11
tx 12
gnd
13
U20
XF2458SAtr_sw_rx_pu
tr_sw_tx_pu ant_sw_selp
ant_sw_seln
a_rx_in
vcc3_3
L321.2nH_NP
L271.5nH _NP
L291.5nH_NP
WCFB-108AG_V02_S4
R10
68_NP
vcc2_9
in4 out 2
gnd
1
gnd
3
FL1BPF_LFB215G37
rf_in2 rf_out 7
g1
g3
g6
g8
pd9
vpc
4
vcc
5
vm10
pad
11
U23
MMPA742G
1
32
5
4U17
LMV321
R25
35.7k
aphy_pa_pddet
R510kR21
1.3k
R14
1.3k
R90
100k
vccpa
vccpa
2
31
Q1
MMBT3904
1
2
3J2
UFL
1
2
3J1
UFL
1 2C217 1.6pF
1 2C108 1.6pF
C109 1.6pF
C222 0.1uFC264
0.1uF
C221 6.8pF_NP
C223
0.01uF
C225 12pF
C224 12pF
C267
100uF_NA
C216
0.01uF
C107
220pF
C262
1.6pF
C103
10pF
C175
1.8pF_NP
C110
5.6pF
C218 1.6pF
rfa_aux
rfa_main
vcc_radio
WCFB-108AG
2413
0 8 0 5
vin
1gn
d2
on_offl3
hypass4 vout 5
U21
LP2985-2.9
vccpa
vcc2_9C212
0.1uF
C213
0.01uF
C215
0.1uF
C14
10uFC214
10uF
0 8 0 5
0 8 0 5
C12
0.5pF_NP
L22 5.6pF
C268
100uF_NA2413
C266
2.2uF120 6
1 2 3 4 5 6
A
B
C
D
654321
D
C
B
A
Title
Number RevisionSize
B
Date: 6-Dec-2007 Sheet of File: C:\Documents and Settings\Jimmy_lin\��\11\WCFB-108AG_V04.DDBDrawn By:
6 6
Rev.04
L8
12nH
C45
4.3pF
vcc1_8A
vcc3_3
cs 1
sk 2
di 3
do 4gnd5 org6 nc7 vcc38U8
CAT93C66
R45
4.7K
vcc3_3
C78
0.1uF
R48 4.7K_NP
R46
4.7K
R47 4.7K_NPvcc3_3
3.3V digital supply R39
0
C97
0.022uF
C71
0.1uF
C80
1uF
C74
0.1uF
C7
10uF
C79
1uF
C98
0.01uF
C75
10uF
C41
0.01uF
vcc3_3
C90
0.022uF
C23
0.01uF
C246
0.01uF
L35
MPZ2012S221A
vcc_radio
11
22
L9BLM15AG121SN
L13BLM15AG121SN
L7BLM15AG121SN
L12BLM15AG121SN
L6BLM15AG121SN
C34
2.2uF
C48
0.1uF
C39
1000pF_NP
C36
10uF
C54
0.1uF
12
C82
1000pF_NP
C47
2.2uF
C62
0.1uF
C49
1000pF
C51
2.2uF
C43
0.1uF
C57
1000pF
C38
2.2uF
C31
0.1uF
vcc1_8A
pcmcia_sel pci_serr_l sdio_cmd
pci
cb
sdio
pcmcia
0
0
1
1
X
X
0
1
1
0
X
X
WCFB-108AG_V02_S5
GPIO_6K9
GPIO_7M10
GPIO_5 L9GPIO_4 N9GPIO_3 P9GPIO_2 M9GPIO_1 J8GPIO_0 K8UART_TX D9CB_MODE/UART_DTR_L A13UART_DCD_L C10UART_CTS_L B12UART_RTS_L B13UART_CLK E10
SPROM_CSB11
SPROM_CLKE9
SPROM_DOUTA12
SPROM_DINB10
JTAG_TRST_L C3
TDO A6
TDI B5
TCK C4
TMS B4
PCMCIA_SELN10
UART_RXE5
UART_RI_LF6
UART_DSR_LE7
U7C
BCM4318E
PLLVDDA5
VDDXTALN7
VDD4WM7
VDDPLLN5
VDDPLL_REFM6
VDDLOP3
VDDVCOM5
VDDCPN6
VDDLFH2
VDDPA1M1
VDDPA2M2
VDDRXJ2
VDDBUS4J5
VDDTXP2
VDDDRN2
VDD2E6
OTP_VDDL10
VDDBUS2H5
VDDBUS3J4
AVDD_ADCE3
VDDBUS1G5
VDD4E8
PLLDVDDB3
VDDIO1K4
VDDIO2K5
VDDIO3K6
AVDD_DACB1
VDD5K11
VDDIO4K7
VESDE11
RGND1 G1AVSS_DAC A1
RGND10 L3
AVSS_ADC E4
RGND11 L4
RGND12 L5
RGND13 L6
RGND14 L7
RGND15 L8
RGND16 M4
RGND17 M8
RGND18 N3
RGND19 N8
RGND2 G2
RGND20 P4
RGND21 P7
RGND22 P8
RGND3 G3
RGND4 H1
RGND5 H3
RGND6 J3
RGND7 K2
RGND8 K3
RGND9 L1
GNDPA1 L2
GNDPA2 M3
PLLGND A3
VSS2 F7
VSS3 G6
VSS4 G7
VSS5 H6
VSS6 H7
VSS7 J6
VSS8 J7
VSSO1 F8
VSSO2 F9
VSSO3 G8
VSSO4 G9
VSSO5 H8
VSSO6 H9
VSSO7 J9
VSSO8 J10
U7D
BCM4318E
vcc1_8A
R401k
C88
1000pF_NP
C44
1000pF
vesd
vesd
coex1_bt_activecoex2_wlan_active
vddcore bulk decouplingvcc1_8R54
0
vcc1_8A
C46
10uF
C52
1uF
C73
0.01uF
C68
0.01uF
C61
0.1uF
C60
0.01uF
C85
0.1uF
C89
0.01uF
C53
10uF
C64
0.1uF
vdda4 vdda3 vdda2 vdda1 vddpa
vdda4
vdda3
vdda2
vdda1
vddpa
vcc3_3
WCFB-108AG
0805
vcc3_3
0805
06 0306 0306 03080506 03
080506 03080506 03
C111
0.01uF
C20
1000pF
R5310K
C15 0.01uF
C13
10uF
L50 L6.2uH
C17
10uF
R51 10K
BS 1IN2
SW 3
PGND 4
SGND 5
EN10
BP9 COMP8 FB 7SS6
GN
D11
U5
MPS1567
R47.5K
C16 100pF
0805
06 030805
0805
Elliott Laboratories, Inc. -- EMC Department Test Report Report Date: March 5, 2008
File: R70599 Rev 1 Appendix Page 9 of 10
EXHIBIT 9: Theory of Operation
for Summit Data Communications Model SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
1 Page
SDC-CF10AG Operational Description This device is an SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors, which operates in the 2.4 GHz and 5 GHz portions of the radio frequency spectrum. The device is compliant with IEEE 802.11a, 802.11b and 802.11g standards using Direct Sequence Spread Spectrum and Orthogonal Frequency Division Multiplexing. The device supports all 802.11a, 802.11b and 802.11g data rates and automatically adjusts data rates and operational modes based on various environmental factors. The SDC-CF10AG is compliant with Compact Flash Type 2 mechanical specifications and interfaces to host devices via a 50-pin connector. The device is based on the Broadcom BCM4318e chip which is an integrated device providing a Media Access Controller (MAC), a Physical Layer Controller (PHY or baseband processor) and a 2.4 GHz transceiver. The SDC-CF10AG incorporates an external 5 GHz transceiver to allow for dual band operation. To maximize operational range, the SDC-CF10G incorporates 2.4 GHz and 5 GHz Power Amplifiers to increase transmit power to as much as 19 dBm (80 mW) and a 2.4 GHz Low Noise Amplifier to improve receiver sensitivity. The frequency stability for both 2.4 GHz (802.11b and 802.11g) and 5 GHz (802.11a) operation is +/- 20 ppm. The SDC-CF10G is powered by the host device into which it is installed and uses a DC to DC regulator. The SDC-CF10AG provides four antenna connectors (Hirose U.FL type) to support dual band transmit and receive diversity. Supported host device antenna types include dipole and printed circuit board antennas. Typical host devices include: (1) Portable Data Terminals (PDTs) and (2) Vehicle Mounted Terminals (VMTs). For additional information please review the User’s Guide which may be found at: http://www.summitdatacom.com/documentation.htm.
Elliott Laboratories, Inc. -- EMC Department Test Report Report Date: March 5, 2008
File: R70599 Rev 1 Appendix Page 10 of 10
EXHIBIT 10: RF Exposure Information
4 Pages
RSS-102 Annex A – RF Technical Brief Cover Sheet
(NOTE: Annex A is Only Required When Exemption Clauses of RSS-102 Are Not Met)
All Fields must be completed with the requested information or the following codes: N/A for Not Applicable, N/P for Not Performed or N/V for Not Available.
Where applicable, check appropriate box.
1. COMPANY NUMBER: 6616A 2. MODEL NUMBER: SDC-CF10AG 3. APPLICANT: Summit Data Communications 4. TYPE OF EVALUATION (Complete the applicable sections) (a) SAR Evaluation: Device Used in the Vicinity of the Human Head; (b) SAR Evaluation Body worn Device; (c) RF Evaluation Note: The worst case scenario (i.e. highest measured value obtained) should be reported.
(a) SAR Evaluation: Device used in the Vicinity of the Human Head • Multiple transmitters: -Yes -No • Evaluated against exposure limits: -General Public Use -Controlled Use • Duty cycle used in evaluation: % • Standard used for evaluation: • SAR Value: W/kg. -Measured -Computed -Calculated
(b) SAR Evaluation: Body worn Device
• Multiple transmitters: -Yes -No • Evaluated against exposure limits: -General Public Use -Controlled Use • Duty cycle used in evaluation: % • Standard used for evaluation: • SAR Value: W/kg. -Measured -Computed -Calculated
(c) RF Evaluation
• Evaluated against exposure limits: -General Public Use -Controlled Use • Duty cycle used in evaluation: % • Standard used for evaluation: • Measurement Distance: 20cm • RF Value: 1.23 -V/m -A/m -W/m2 (Note: 10 W/ m2 = 1 mW/cm2 -Measured -Computed -Calculated
(NOTE: Annex B Required for All TX Devices) ATTESTATION: I attest that when SAR or RF Exposure Evaluation testing is required and has been performed, that the information provided in Annex A is correct; that a Technical Brief was prepared and the information it contains is correct; that the device evaluation was performed or supervised by me; that applicable measurement methods and evaluation methodologies have been followed and that the device meets the SAR and/or RF exposure limits of RSS-102.
Signature: Date: March 5, 2008 NAME(Please print or type): Mark Hill TITLE(Please print or type): EMC Staff Engineer COMPANY(Please print or type): Elliott Labs for Summit Communications Note 1: To obtain approval under this Standard, each application for certification shall be accompanied by the duly completed RF technical brief cover sheet (see Annex A) and a properly signed declaration of compliance (see Annex B). However if the device in question meets the exemption from routine evaluation limits of Sections 2.5.1 or 2.5.2, only a properly signed declaration of compliance (Annex B) shall be submitted. Note 2: Although submission of the RF exposure technical brief is not required for certification it shall be made available upon request, for as long as the device model is marketed in Canada. Note 3: In cases of exemption according to RSS-102, the information contained in the RF exposure technical brief may be limited to information that demonstrates how the e.i.r.p. or output power was derived.
EMC Test DataClient:
Contact:Standard:
Test Specific Details
General Test Configuration
Yes
1.23
No deviations were made from the requirements of the standard.
Calculation uses the free space transmission formula: S = (PG)/(4 πd2)Where: S is power density (W/m2), P is output power (W), G is antenna gain relative to isotropic, d is separation distance from the transmitting antenna (m).
Summary of Results
Device complies with Power Density requirements at 20cm separation:
Maximum Power Density (S) in W/m2
Modifications Made During TestingNo modifications were made to the EUT during testing
Deviations From The Standard
Test Engineer: Mark Hill
Maximum Permissible Exposure
Objective: The objective of this test session is to perform final qualification testing of the EUT with respect to the specification listed above.
Date of Test: 2/1/2008
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
T69413_FCC_DTS MPE Page 1 of 2
EMC Test DataClient:
Contact:Standard:
Ron Seide15.247 / 15.E / RSS-210 Class: N/A
Summit Data Communications Job Number: J68959
Model: SDC-CF10AG 802.11a/g Compact Flash Module with Antenna Connectors
T-Log Number: T69413Account Manager: Dean Eriksen
Use: GeneralAntenna: 3.8 dBi
Cable Ant PowerFreq. Loss Gain at Ant EIRPMHz dBm mW* dB dBi dBm mW2412 24.1 257.0 0 3.8 24.1 616.602437 23.8 239.9 0 3.8 23.8 575.442462 23.4 218.8 0 3.8 23.4 524.81
For the cases where S > the MPE Limit
Freq.MHz241224372462
Use: GeneralAntenna: 5 dBi
Cable Ant PowerFreq. Loss Gain at Ant EIRPMHz dBm mW* dB dBi dBm mW5745 15.6 36.3 0 5 15.6 114.825785 14.6 28.8 0 5 14.6 91.205805 15.3 33.9 0 5 15.3 107.15
For the cases where S > the MPE Limit
Freq.MHz574557855805
EUT Power Density (S) MPE LimitPower at 20 cm at 20 cm
mW/cm^2 mW/cm^20.023 1.0000.018 1.0000.021 1.000
S @ 20 cm MPE Limit Distance where
0.104 1.000 6.5cm0.114 1.000 6.8cm0.123 1.000 7.0cm
mW/cm^2 mW/cm^2 S <= MPE LimitS @ 20 cm MPE Limit Distance where
0.114 1.0000.104 1.000
mW/cm^2 mW/cm^20.123 1.000
EUT Power Density (S) MPE LimitPower at 20 cm at 20 cm
0.023 1.000 3.0cmmW/cm^2 mW/cm^2 S <= MPE Limit
0.021 1.000 2.9cm0.018 1.000 2.7cm
T69413_FCC_DTS MPE Page 2 of 2