Colocation

FCC ID: UZ7VC6096

Test Report

Download: PDF
FCCID_1041885

FCC Measurement / Technical Report on Multi-radio Mobile PC VC6096 Report Reference: MDE_MOT_0805_FCCcc Test Laboratory: 7 layers AG DAT-P-192/99-01 Borsigstrasse 11 40880 Ratingen Germany email: info@7Layers.de Note: The following test results relate only to the devices specified in this document. This report shall not be reproduced in parts without the written approval of the testing laboratory. 7 layers AG Aufsichtsratsvorsitzenderh Registergerichth registered in: Borsigstrasse 11 Chairman of the Supervisory Board: Düsseldorf, HRB 44096 40880 Ratingen, Germany Markus Becker USt-IdNr h VAT Nr: Phone: +49 (0) 2102 749 0 Vorstandh Board: DE 203159652 Fax: +49 (0) 2102 749 350 Dr. Hans-Jürgen Meckelburg TAX No. 147/5869/0385 www.7Layers.com René Schildknecht InterLab® is a registered trademark of 7 layers AG

Table of Contents 0 Summary 3 0.1 Technical Report Summary 3 0.2 Measurement Summary 4 1 Administrative Data 5 1.1 Testing Laboratory 5 1.2 Project Data 5 1.3 Applicant Data 5 1.4 Manufacturer Data 5 2 Product labelling 6 2.1 FCC ID label 6 2.2 Location of the label on the EUT 6 3 Test object Data 7 3.1 General EUT Description 7 3.2 EUT Main components 8 3.3 Ancillary Equipment 8 3.4 EUT Setups 9 3.5 Operating Modes 9 3.6 Test Matrix Co-Location (GSM/UMTS — WLAN 2.4/5 GHz) 10 4 Test Results 11 4.1 Field strength of spurious radiation 11 5 Test Equipment 17 6 Photo Report 20 7 Setup Drawings 21 Test report Reference: MDE_MOT_0805_FCCcc Page 2 of 21

0 Summary 0.1 Technical Report Summary Type of Authorization Certification for a multi radio device containing a GSM / UMTS cellular device and a WLAN device Applicable FCC Rules Prepared in accordance with the requirements of FCC Rules and Regulations as listed in 47 CFR Ch.1 (10-1-07 Edition). The following parts and subparts are applicable to the results in this test report. - Part 2, Subpart J - Equipment Authorization Procedures, Certification Especially for this report: For the representative worst-case combinations of operating modes listed in the test matrix the following tests shall be performed: • Radiated spurious emissions tests according to the standard which is applicable to the dominant transmitter: Part 22: Subpart H, § 22.917 Emission limitations for cellular equipment Part 24: Subpart E, § 24.238 Emission limitations for Broadband PCS equipment in combination with: Part 2: § 2.1053 Measurement required: Field strength of spurious radiation • Radiated spurious emissions tests according to Part 22: Subpart H, § 22.917 Emission limitations for cellular equipment in order to check an external antenna which has higher gain than listed in the grant of the module Note: - Summary Test Results: The EUT complied with all performed tests as listed in chapter 0.2 Measurement Summary. Test report Reference: MDE_MOT_0805_FCCcc Page 3 of 21

layers 0.2 Measurement Summary FCC Part 22 / 24 §§ 22.917, 24.238 Spurious radiated emissions The measurement was performed according Part 2: § 2.1053 10—1—07 OP—Mode Setup Port Final Result op—mode 1 setup_O1 Enclosure passed op—mode 2 setup_O1 Enclosure passed op—mode 3 setup_O1 Enclosure passed op—mode 4 setup_O1 Enclosure passed op—mode 5 setup_O1 Enclosure passed op—mode 6 setup_O1 Enclosure passed op—mode 7 setup_O1 Enclosure passed op—mode 8 setup_O1 Enclosure passed op—mode 9 setup_O1 Enclosure passed op—mode 10 setup_O1 Enclosure passed op—mode 19 setup_O1 Enclosure passed op—mode 20 setup_O1 Enclosure passed This test report replaces the test report MDE_MOT_O805_FCCc . . f (] » Responsible for /7 Responsible / ( L# Accreditation Scope: “J K/“'(- for Test Report: / / § > U * g« F rsigstr. 1+ 7 tayers AG. 80 germany 40880 Ratinge!"), 149 0 21\02 4 Phone +49 K Test report Reference: MDE_MOT_O805_FCCec Page 4 of 21

1 Administrative Data 1.1 Testing Laboratory Company Name: 7 Layers AG Address Borsigstr. 11 40880 Ratingen Germany This facility has been fully described in a report submitted to the FCC and accepted under the registration number 96716 . The test facility is also accredited by the following accreditation organisation: - Deutscher Akkreditierungs Rat DAR-Registration no. DAT-P-192/99-01 Responsible for Accreditation Scope: Dipl.-Ing. Bernhard Retka Dipl.-Ing. Robert Machulec Dipl.-Ing. Thomas Hoell Dipl.-Ing. Andreas Petz Report Template Version: 2008-08-06 1.2 Project Data Responsible for testing and report: Dipl.-Ing. Andreas Petz Date of Test(s): 2008-07-15 to 2008-09-15 Date of Report: 2008-09-16 1.3 Applicant Data Company Name: Motorola, Inc. Address: One Motorola Plaza Holtsville, New York 11742 USA Contact Person: Mr. Mark Luksich 1.4 Manufacturer Data Company Name: please see at Applicant Data Address: Contact Person: Test report Reference: MDE_MOT_0805_FCCcc Page 5 of 21

2 Product labelling 2.1 FCC ID label At the time of the report there was no FCC label available. 2.2 Location of the label on the EUT see above Test report Reference: MDE_MOT_0805_FCCcc Page 6 of 21

3 Test object Data 3.1 General EUT Description Equipment under Test Mobile Computer with GSM/UMTS / Bluetooth / WLAN multi radio and GPS receiver Type Designation: VC6096 Kind of Device: The separate transceivers / receiver are built-in (optional) a Mobile Computer Voltage Type: DC Voltage level: 14.5 V General product description: The EUT is a mobile PC which serves as multi-radio host that has implemented the following radio parts: • Bluetooth: An uncertified module with integral antenna is used (listing will be applied) • WLAN: A qualified module with existing FCC grant is used which provides a connector for an external antenna. Frequencies in the bands 2.4 and 5 GHz are supported. • GSM / UMTS: A qualified module with existing FCC grant is used which provides a connector for an external antenna. The bands 850 and 1900 are supported. The antenna gain of the grant (2.0 dBi) is exceeded by the external antenna (2.7 dBi) in the 850 MHz band. The EUT is intended for the use in a car or office in a fixed mounting position (i.e. not portable) and the external antenna is also fixed mounted. The RF output power of Bluetooth signals is below 5 dBm and the distance to the external antenna is more than 20 cm. GSM / UMTS signals use a separate feeder line to a separate antenna element, as well as the WLAN has a separate feeder line to a separate antenna element. Both antenna elements are mounted in a common housing (“the antenna”) and the distance between them is less than 20 cm. The external antenna is dedicated to be used in conjunction with the EUT. The radios can operate independently from each other and transmission at the same time is possible for one of these scenarios: (Bluetooth) AND (GSM OR UMTS) AND (WLAN 2.4 OR WLAN 5) Therefore, co-location testing is applicable to simultaneous GSM/UMTS and WLAN 2.4/5 transmission for representative worst-case combinations. Specific product description for the EUT: The Equipment Under Test (EUT) is a multi-radio mobile computer which supports WWAN GSM / EDGE / GPRS / UMTS (including HSDPA) in the bands 850 / 900 / 1800 / 1900 / 2100 MHz and Bluetooth 1 / 2 / 3 Mbps in the 2.4 GHz ISM band and WLAN modes a / b / g in the ISM bands 5 / 2.4 GHz and GPS (receiver) on L1-frequency (1575.42 MHz). Bluetooth uses an integral module which has an integral antenna, WWAN uses an integral module in combination of an external antenna, WLAN uses an integral module in combination of an external antenna and GPS uses an integral module in combination of an external antenna. The WWAN and WLAN antennas are assembled in a common housing, for GPS an active antenna is provided. VC6096CN is a variant of VC6096 for China with same features but with no voice support (data only). Test report Reference: MDE_MOT_0805_FCCcc Page 7 of 21

The EUT provides the following ports: Ports Enclosure DC input (power supply) WWAN antenna port WLAN antenna port GPS antenna port LAN port USB port (at rear side) Mini-USB port (at rear side) USB port (at left side) Telemetry port (CAN bus) The main components of the EUT are listed and described in Chapter 3.2 3.2 EUT Main components Type, S/N, Short Descriptions etc. used in this Test Report Short Equipment Type Serial No. HW Status SW Status Date of Description under Test Designation Receipt EUT A GSM / UMTS VC6096 8149500000 0.0 V2.05 2008-07-11 (Code: / WLAN 012 AB740d01) radio Remark: EUT A is equipped with an external antenna (band / gain: 850 / 0.56 dBD (=2.7 dBi); 1900 / 0.5 dBi). NOTE: The short description is used to simplify the identification of the EUT in this test report. 3.3 Ancillary Equipment For the purposes of this test report, ancillary equipment is defined as equipment which is used in conjunction with the EUT to provide operational and control features to the EUT. It is necessary to configure the system in a typical fashion, as a customer would normally use it. But nevertheless Ancillary Equipment can influence the test results. Short Equipment Type HW Status SW Status Serial No. FCC ID Description under Test Designation AE1 Combination FLN4048A - - – – (Code: Antenna AB740COMA WWAN / NT01) WLAN AE2 Vehicle Power 3071815Y13 - - – – Supply Cable AE3 WAN RF cable 3087568V84 - - – – (90deg connector) AE4 WLAN RF 3087568V83 - - – – cable (90deg connector) Test report Reference: MDE_MOT_0805_FCCcc Page 8 of 21

3.4 EUT Setups This chapter describes the combination of EUTs and ancillary equipment used for testing. Setup No. Combination of EUTs Description setup_01 EUT A + AE1 + AE2 + setup for radiated measurements AE3 + AE4 3.5 Operating Modes This chapter describes the operating modes of the EUTs used for testing according to the test matrix (sub-clause 3.6). Op. Mode Description of Operating Modes Remarks op-mode 1 EUT transmits on 836 MHz (GSM) and on GSM: in test network, max. output power 2437 MHz (WLAN, 802.11b) WLAN: local TX mode, max. output power op-mode 2 EUT transmits on 836 MHz (GSM) and on GSM: in test network, max. output power 2437 MHz (WLAN, 802.11g) WLAN: local TX mode, max. output power op-mode 3 EUT transmits on 836 MHz (GSM) and on GSM: in test network, max. output power 5240 MHz (WLAN, 802.11a) WLAN: local TX mode, max. output power op-mode 4 EUT transmits on 836 MHz (EDGE) and on EDGE: in test network, max. output power 5755 MHz (WLAN, 802.11a) WLAN: local TX mode, max. output power op-mode 5 EUT transmits on 836 MHz (UMTS FDD5) and UMTS: in test network, max. output power on 2437 MHz (WLAN, 802.11b) WLAN: local TX mode, max. output power op-mode 6 EUT transmits on 1880 MHz (GSM) and on GSM: in test network, max. output power 2437 MHz (WLAN, 802.11b) WLAN: local TX mode, max. output power op-mode 7 EUT transmits on 1880 MHz (GSM) and on GSM: in test network, max. output power 2437 MHz (WLAN, 802.11g) WLAN: local TX mode, max. output power op-mode 8 EUT transmits on 1880 MHz (GSM) and on GSM: in test network, max. output power 5755 MHz (WLAN, 802.11a) WLAN: local TX mode, max. output power op-mode 9 EUT transmits on 1880 MHz (EDGE) and on EDGE: in test network, max. output power 5240 MHz (WLAN, 802.11a) WLAN: local TX mode, max. output power op-mode 10 EUT transmits on 1880 MHz (UMTS FDD2) UMTS: in test network, max. output power and on 2437 MHz (WLAN, 802.11g) WLAN: local TX mode, max. output power op-mode 11 EUT transmits on 836 MHz (GSM) and on GSM: in test network, max. output power 5755 MHz (WLAN, 802.11a) WLAN: local TX mode, max. output power op-mode 12 EUT transmits on 836 MHz (EDGE) and on EDGE: in test network, max. output power 2437 MHz (WLAN, 802.11g) WLAN: local TX mode, max. output power op-mode 13 EUT transmits on 836 MHz (UMTS FDD5) and UMTS: in test network, max. output power on 5240 MHz (WLAN, 802.11a) WLAN: local TX mode, max. output power op-mode 14 EUT transmits on 836 MHz (UMTS HSDPA) UMTS: in test network, max. output power and on 2437 MHz (WLAN, 802.11g) WLAN: local TX mode, max. output power op-mode 15 EUT transmits on 1880 MHz (GSM) and on GSM: in test network, max. output power 5240 MHz (WLAN, 802.11a) WLAN: local TX mode, max. output power op-mode 16 EUT transmits on 1880 MHz (EDGE) and on EDGE: in test network, max. output power 2437 MHz (WLAN, 802.11g) WLAN: local TX mode, max. output power op-mode 17 EUT transmits on 1880 MHz (UMTS FDD2) UMTS: in test network, max. output power and on 2437 MHz (WLAN, 802.11b) WLAN: local TX mode, max. output power op-mode 18 EUT transmits on 1880 MHz (UMTS HSDPA) UMTS: in test network, max. output power and on 5755 MHz (WLAN, 802.11a) WLAN: local TX mode, max. output power In order to verify radiated spurious emissions with the external antenna which has higher gain as listed in the grant for the module, the following operating modes are used which provides the highest output power as “worst-case-scenario”: Op. Mode Description of Operating Modes Remarks op-mode 19 Call established on Traffic Channel (TCH) 128, 128 is the lowest channel Carrier Frequency 824.2 MHz op-mode 2 EUT transmits on 836 MHz (GSM) and on 190 is a mid channel of the full GSM band 2437 MHz (WLAN, 802.11g) op-mode 20 Call established on Traffic Channel (TCH) 251, 251 is the highest channel Carrier Frequency 848.8 MHz Test report Reference: MDE_MOT_0805_FCCcc Page 9 of 21

3.6 Test Matrix Co-Location (GSM/UMTS — WLAN 2.4/5 GHz) WLAN → 2437 2437 5240 5755 Operating Standard Remark GSM/UMTS ↓ b g a a Mode GSM 850 X op-mode 1 FCC 22 Measurement: 0.03–10 GHz X op-mode 2 FCC 22 Measurement: 1–10 GHz X op-mode 3 FCC 22 Measurement: 1–10 GHz O op-mode 11 FCC 22 Measurement: 1–10 GHz EDGE 850 X op-mode 4 FCC 22 Measurement: 1–10 GHz O op-mode 12 FCC 22 Measurement: 1–10 GHz UMTS FDD5 X op-mode 5 FCC 22 Measurement: 1–10 GHz O op-mode 13 FCC 22 Measurement: 1–10 GHz UMTS HSDPA O op-mode 14 FCC 22 Measurement: 1–10 GHz GSM 1900 X op-mode 6 FCC 24 Measurement: 0.03–20 GHz X op-mode 7 FCC 24 Measurement: 1–20 GHz O op-mode 15 FCC 24 Measurement: 1–20 GHz X op-mode 8 FCC 24 Measurement: 1–20 GHz EDGE 1900 O op-mode 16 FCC 24 Measurement: 1–20 GHz X op-mode 9 FCC 24 Measurement: 1–20 GHz UMTS FDD2 O op-mode 17 FCC 24 Measurement: 1–20 GHz X op-mode 10 FCC 24 Measurement: 1–20 GHz UMTS HSDPA O op-mode 18 FCC 24 Measurement: 1–20 GHz Notes: X = to be tested. O = if after testing no relevant emissions are found these tests will be omitted, otherwise (some of) the tests will be additionally performed in dependence of the results of the performed tests. Vertical / 1st column: dominant carrier GSM/UMTS providing higher output power Horizontal / 1st row: WLAN carrier providing lower output power GSM signal has the highest output power compared to EDGE and UMTS (worst-case) All numerical values are given in MHz. Test report Reference: MDE_MOT_0805_FCCcc Page 10 of 21

4 Test Results 4.1 Field strength of spurious radiation Standard FCC Part 22, 10-1-07 Subpart H / FCC Part 24, 10-1-07 Subpart E The test was performed according to: FCC §2.1053, 10-1-07 4.1.1 Test Description 1) The EUT was placed inside an anechoic chamber. Refer to chapter "Setup Drawings". The EUT was coupled to the R&S CMU200 Digital Communication Tester which was located outside the chamber via air link. 2) A call was established on a Traffic Channel (TCH) between the EUT and the base station simulator (R&S CMU200 Digital Communication Tester). Important Settings: - Discontinuous Transmission: OFF - Modulation Signal: PSR16-1 (Pseudo Random Sequence) - Output Power: Maximum - Channel : Varied during measurements 3) A pre-calibration procedure is used so that the readings from the spectrum analyser are corrected and represent directly the equivalent radiated power (related to a lamda/2 dipole). 4) All spurious radiation measurements were made with spectrum analyser and the appropriate calibrated antennas for the frequency range of 30 MHz to 20 GHz (up to the 10th harmonic of the transmit frequency). 5) Important Analyser Settings - [Resolution Bandwidth / Video Bandwidth]: a) [3 kHz / 10 kHz] in the Span of 1 MHz directly below and above the GSM-Band, b) [10 kHz / 30 kHz] in case the curve of the analyser IF-Filter leads to an exceeding of the limit, in this case a worst case correction factor of 20 dB (1 MHz -> 10 kHz) was used c) [1 MHz / 3 MHz] otherwise - Sweep Time: Calculated by using a formula given in the Product Standard "GSM 11.10- 1 edition 4" for spurious emissions measurements (depending on the transmitting signal, the span and the resolution bandwidth) 6) The spurious emissions (peak) were measured in both vertical and horizontal antenna polarisation during the call is established. Test report Reference: MDE_MOT_0805_FCCcc Page 11 of 21

4.1.2 Test Requirements / Limits § 2.1053 Measurements required: Field strength of spurious radiation. Measurements shall be made to detect spurious emissions that may be radiated directly from the cabinet, control circuits, power leads, or intermediate circuit elements under normal conditions of installation and operation. Curves or equivalent data shall be supplied showing the magnitude of each harmonic and other spurious emission. For this test, single sideband, independent sideband, and controlled carrier transmitters shall be modulated under the conditions specified in paragraph (c) of Sec. 2.1049, as appropriate. For equipment operating on frequencies below 890 MHz, an open field test is normally required, with the measuring instrument antenna located in the far-field at all test frequencies. In the event it is either impractical or impossible to make open field measurements (e.g. a broadcast transmitter installed in a building) measurements will be accepted of the equipment as installed. Such measurements must be accompanied by a description of the site where the measurements were made showing the location of any possible source of reflections which might distort the field strength measurements. Information submitted shall include the relative radiated power of each spurious emission with reference to the rated power output of the transmitter, assuming all emissions are radiated from halfwave dipole antennas. (b) The measurements specified in paragraph (a) of this section shall be made for the following equipment: (2) All equipment operating on frequencies higher than 25 MHz. § 2.1057 Frequency spectrum to be investigated. (a) In all of the measurements set forth in Secs. 2.1051 and 2.1053, the spectrum shall be investigated from the lowest radio frequency signal generated in the equipment, without going below 9 kHz, up to at least the frequency shown below: (1) If the equipment operates below 10 GHz: to the tenth harmonic of the highest fundamental frequency or to 40 GHz, whichever is lower. (b) Particular attention should be paid to harmonics and subharmonics of the carrier frequency as well as to those frequencies removed from the carrier by multiples of the oscillator frequency. Radiation at the frequencies of multiplier stages should also be checked. (c) The amplitude of spurious emissions which are attenuated more than 20 dB below the permissible value need not be reported. (d) Unless otherwise specified, measurements above 40 GHz shall be performed using a minimum resolution bandwidth of 1 MHz. § 22.917 Emission limitations for cellular equipment (a) The power of any emission outside of the authorized operating frequency ranges must be attenuated below the transmitting power (P) by a factor of at least 43 + 10 log(P) dB. This is calculated to be -13 dBm (effective radiated power) which corresponds to 84.6 dBµV/m (field strength) in a distance of 3 m. (b) Compliance with these rules is based on the use of measurement instrumentation employing a resolution bandwidth of 100 kHz or greater. In the 1 MHz bands immediately outside and adjacent to the frequency block a resolution bandwidth of at least one percent of the emission bandwidth of the fundamental emission of the transmitter may be employed. A narrower resolution bandwidth is permitted in all cases to improve measurement accuracy provided the measured power is integrated over the full required measurement bandwidth (i.e. 100 kHz or 1 percent of emission bandwidth, as specified). Test report Reference: MDE_MOT_0805_FCCcc Page 12 of 21

The emission bandwidth is defined as the width of the signal between two points, one below the carrier center frequency and one above the carrier center frequency, outside of which all emissions are attenuated at least 26 dB below the transmitter power. (c) Licensees in this service may establish an alternative out of band emission limit to be used at specified band edge(s) in specified geographical areas [...]. (d) If any emission from a transmitter operating in this service results in interference to users of another radio service, the FCC may require a greater attenuation of that emission than specified in this section. § 24.238 Emission limitations for Broadband PCS equipment (a) The power of any emission outside of the authorized operating frequency ranges must be attenuated below the transmitting power (P) by a factor of at least 43 + 10 log(P) dB. This is calculated to be -13 dBm (effective radiated power) which corresponds to 84.6 dBµV/m (field strength) in a distance of 3 m. (b) Compliance with these rules is based on the use of measurement instrumentation employing a resolution bandwidth of 1 MHz or greater. However, in the 1 MHz bands immediately outside and adjacent to the frequency block a resolution bandwidth of at least one percent of the emission bandwidth of the fundamental emission of the transmitter may be employed. A narrower resolution bandwidth is permitted in all cases to improve measurement accuracy provided the measured power is integrated over the full required measurement bandwidth (i.e. 1 MHz or 1 percent of emission bandwidth, as specified). The emission bandwidth is defined as the width of the signal between two points, one below the carrier center frequency and one above the carrier center frequency, outside of which all emissions are attenuated at least 26 dB below the transmitter power. (c) Licensees in this service may establish an alternative out of band emission limit to be used at specified band edge(s) in specified geographical areas [...]. (d) If any emission from a transmitter operating in this service results in interference to users of another radio service, the FCC may require a greater attenuation of that emission than specified in this section. Test report Reference: MDE_MOT_0805_FCCcc Page 13 of 21

4.1.3 Test Protocol Temperature: 24 – 28 °C Air Pressure: 1014 – 1025 hPa Humidity: 37 – 53 % Op. Mode Setup Port op-mode 1 setup_01 Enclosure Frequency Antenna Bandwidth Measured Level Limit MHz Polarisation kHz dBm dBm 2438 Horizontal 1000 11.7 -13.0 Remark: No (further) spurious emissions were found in the range 20 dB below the limit. The emission at 2438 MHz is the WLAN carrier and not a spurious emission. Op. Mode Setup Port op-mode 2 setup_01 Enclosure Frequency Antenna Bandwidth Measured Level Limit MHz Polarisation kHz dBm dBm 2435 Horizontal 1000 13.2 -13.0 Remark: No (further) spurious emissions were found in the range 20 dB below the limit. The emission at 2435 MHz is the WLAN carrier and not a spurious emission. Op. Mode Setup Port op-mode 3 setup_01 Enclosure Frequency Antenna Bandwidth Measured Level Limit MHz Polarisation kHz dBm dBm 5247 Vertical 1000 11.1 -13.0 Remark: No (further) spurious emissions were found in the range 20 dB below the limit. The emission at 5247 MHz is the WLAN carrier and not a spurious emission. Op. Mode Setup Port op-mode 4 setup_01 Enclosure Frequency Antenna Bandwidth Measured Level Limit MHz Polarisation kHz dBm dBm 5748 Vertical 1000 3.1 -13.0 Remark: No (further) spurious emissions were found in the range 20 dB below the limit. The emission at 5748 MHz is the WLAN carrier and not a spurious emission. Test report Reference: MDE_MOT_0805_FCCcc Page 14 of 21

Op. Mode Setup Port op-mode 5 setup_01 Enclosure Frequency Antenna Bandwidth Measured Level Limit MHz Polarisation kHz dBm dBm 2438 Horizontal 1000 10.7 -13.0 Remark: No (further) spurious emissions were found in the range 20 dB below the limit. The emission at 2438 MHz is the WLAN carrier and not a spurious emission. Op. Mode Setup Port op-mode 6 setup_01 Enclosure Frequency Antenna Bandwidth Measured Level Limit MHz Polarisation kHz dBm dBm 2437 Horizontal 1000 12.7 -13.0 Remark: No (further) spurious emissions were found in the range 20 dB below the limit. The emission at 2437 MHz is the WLAN carrier and not a spurious emission. Op. Mode Setup Port op-mode 7 setup_01 Enclosure Frequency Antenna Bandwidth Measured Level Limit MHz Polarisation kHz dBm dBm 2435 Horizontal 1000 13.0 -13.0 Remark: No (further) spurious emissions were found in the range 20 dB below the limit. The emission at 2435 MHz is the WLAN carrier and not a spurious emission. Op. Mode Setup Port op-mode 8 setup_01 Enclosure Frequency Antenna Bandwidth Measured Level Limit MHz Polarisation kHz dBm dBm 5754 Vertical 1000 3.9 -13.0 Remark: No (further) spurious emissions were found in the range 20 dB below the limit. The emission at 5754 MHz is the WLAN carrier and not a spurious emission. Op. Mode Setup Port op-mode 9 setup_01 Enclosure Frequency Antenna Bandwidth Measured Level Limit MHz Polarisation kHz dBm dBm 5234 Vertical 1000 10.9 -13.0 Remark: No (further) spurious emissions were found in the range 20 dB below the limit. The emission at 2438 MHz is the WLAN carrier and not a spurious emission. Test report Reference: MDE_MOT_0805_FCCcc Page 15 of 21

Op. Mode Setup Port op-mode 10 setup_01 Enclosure Frequency Antenna Bandwidth Measured Level Limit MHz Polarisation kHz dBm dBm 2435 Horizontal 1000 11.8 -13.0 Remark: No (further) spurious emissions were found in the range 20 dB below the limit. The emission at 2435 MHz is the WLAN carrier and not a spurious emission. Op. Mode Setup Port op-mode 19 setup_01 Enclosure Frequency Antenna Bandwidth Measured Level Limit MHz Polarisation kHz dBm dBm 824 Horizontal 3.0 –17.88 -13.0 Remark: No (further) spurious emissions were found in the range 20 dB below the limit. Op. Mode Setup Port op-mode 20 setup_01 Enclosure Frequency Antenna Bandwidth Measured Level Limit MHz Polarisation kHz dBm dBm 849 Horizontal 3.0 –15.66 -13.0 Remark: No (further) spurious emissions were found in the range 20 dB below the limit. 4.1.4 Test result: Spurious radiated emissions FCC Part 15, Subpart C Op. Mode Result op-mode 1 passed op-mode 2 passed op-mode 3 passed op-mode 4 passed op-mode 5 passed op-mode 6 passed op-mode 7 passed op-mode 8 passed op-mode 9 passed op-mode 10 passed op-mode 19 passed op-mode 20 passed Test report Reference: MDE_MOT_0805_FCCcc Page 16 of 21

5 Test Equipment EUT Digital Signalling System Equipment Type Serial No. Manufacturer Cal data Next cal Digital Radio CMD 55 831050/020 Rohde & Schwarz 01.12.05 01.12.08 Communication Tester Signalling Unit for PTW60 100004 Rohde & Schwarz - - Bluetooth Universal Radio CMU200 102366 Rohde & Schwarz 22.09.07 22.09.09 Communication Tester Universal Radio CMU200 837983/052 Rohde & Schwarz 22.09.07 22.09.09 Communication Tester Signalling Unit for CBT 100302 Rohde & Schwarz 22.09.06 N/A – only Bluetooth used for signalling EMI Test System Equipment Type Serial No. Manufacturer Cal data Next cal Comparison Noise CNE III 99/016 York - - Emitter EMI Analyzer ESI 26 830482/004 Rohde & Schwarz 06.12.07 06.12.09 Signal Generator SMR 20 846834/008 Rohde & Schwarz 05.12.07 05.12.09 AC Power Source 6404 64040000B04 Croma ATE INC. 01.06.08 N/A the parameters will be checked before testing EMI Radiated Auxiliary Equipment Equipment Type Serial No. Manufacturer Cal data Next cal Antenna mast 4m MA 240 240/492 HD GmbH H. Deisel - - Biconical dipole VUBA 9117108 Schwarzbeck 02.07.03 06.10.08 9117 Broadband Amplifier JS4- 849785 Miteq 06.02.08 06.10.08 18MHz-26GHz 18002600 -32 Broadband Amplifier JS4- 896037 Miteq 06.02.08 06.10.08 30MHz-18GHz 00101800 -35 Broadband Amplifier JS4- 619368 Miteq 06.02.08 06.10.08 45MHz-27GHz 00102600 -42 Cable "ESI to EMI EcoFlex10 W18.01-2 Kabel Kusch 06.02.08 06.10.08 Antenna" W38.01-2 Cable "ESI to Horn UFB311A W18.02-2 Rosenberger- 06.02.08 06.10.08 Antenna" UFB293C W38.02-2 Microcoax Double-ridged horn HF 906 357357/002 Rohde & Schwarz 12.05.06 06.10.08 Double-ridged horn HF 906 357357/001 Rohde & Schwarz 20.01.04 N/A – spare antenna High Pass Filter 5HC3500/ 200035008 Trilithic 06.02.08 06.10.08 12750- 1.2-KK High Pass Filter 5HC2700/ 9942012 Trilithic 06.02.08 06.10.08 12750- 1.5-KK High Pass Filter 4HC1600/ 9942011 Trilithic 06.02.08 06.10.08 12750- 1.5-KK Log.-per. Antenna HL 562 830547/003 Rohde & Schwarz 17.05.06 17.05.09 Ultralog Loop Antenna HFH2-Z2 829324/006 Rohde & Schwarz 19.08.02 N/A – only used for pre-testing Pyramidal Horn Model 9910-1184 EMCO 06.02.08 06.10.08 Antenna 26.5 GHz 3160-09 Test report Reference: MDE_MOT_0805_FCCcc Page 17 of 21

EMI Conducted Auxiliary Equipment Equipment Type Serial No. Manufacturer Cal data Next cal Cable "LISN to ESI" RG214 W18.03+W48. Huber+Suhner 06.02.08 06.10.08 03 Two-Line V-Network ESH 3-Z5 828304/029 Rohde & Schwarz 01.11.05 01.11.08 Two-Line V-Network ESH 3-Z5 829996/002 Rohde & Schwarz - - Auxiliary Test Equipment – calibration not applicable; spare equipment Equipment Type Serial No. Manufacturer Cal data Next cal Broadband Resist. 1506A / LM390 Weinschel - - Power Divider N 93459 Broadband Resist. 1515 / LN673 Weinschel - - Power Divider SMA 93459 Digital Multimeter 01 Voltcraft IJ096055 Conrad - - M-3860M Digital Multimeter 02 Voltcraft IJ095955 Conrad - - M-3860M Digital Oscilloscope TDS 784C B021311 Tektronix - - Fibre optic link FO RS232 181-018 Pontis - - Satellite Link Fibre optic link FO RS232 182-018 Pontis - - Transceiver Link I/Q Modulation AMIQ-B1 832085/018 Rohde & Schwarz - - Generator Notch Filter ultra WRCA800 24 Wainwright - - stable /960-6E Spectrum Analyzer 9 FSP3 838164/004 Rohde & Schwarz - - kHz to 3 GHz Temperature Chamber VT 4002 585660021500 Vötsch - - 10 Temperature Chamber KWP 592260121900 Weiss - - 120/70 10 ThermoHygro Opus10 7482 Lufft Mess- und - - Datalogger 03 THI Regeltechnik (8152.00) GmbH Anechoic Chamber – calibration not applicable Equipment Type Serial No. Manufacturer Cal data Next cal Air Compressor Atlas Copco - - (pneumatic) Controller CO 2000 CO2000/328/1 Innco innovative - - 2470406/L constructions GmbH EMC Camera CE-CAM/1 CE-SYS - - EMC Camera for CCD-400E 0005033 Mitsubishi - - observation of EUT Filter ISDN B84312- Siemens & - - C110-E1 Matsushita Filter telephone B84312- Siemens & - - systems / modem C40-B1 Matsushita Filter Universal 1A B84312- Siemens & - - C30-H3 Matsushita Fully/Semi AE 10.58x6.3 Frankonia - - Chamber 8x6 Turntable DS 420S 420/573/99 HD GmbH, H.Deisel - - Valve Control Unit VE 615P 615/348/99 HD GmbH, H.Deisel - - (pneum.) Test report Reference: MDE_MOT_0805_FCCcc Page 18 of 21

7 layers Bluetooth Full RF Test Bluetooth RF Conformance Solution Test System TS8960 Equipment Type Serial No. Manufacturer Cal data Next cal Power Meter NRVD 832025/059 Rohde & Schwarz 22.08.07 22.08.08 832025/059 Power Sensor A NRV-Z1 832279/013 Rohde & Schwarz 23.08.07 23.08.08 832279/013 Power Sensor B NRV-Z1 832279/015 Rohde & Schwarz 23.08.07 23.08.08 832279/015 Power Supply E3632A MY40003776 Agilent - - Power Supply PS-2403D - Conrad - - RF Step Attenuator RSP 833695/001 Rohde & Schwarz 09.08.06 09.08.08 833695/001 Rubidium Frequency MFS 002 Efratom 24.08.07 24.08.08 Normal Signal Analyzer FSIQ26 832695/007 Rohde & Schwarz 23.08.07 23.08.09 FSIQ26 832695/007 Signal Generator SMP 03 833680/003 Rohde & Schwarz 04.07.06 04.07.09 833680/003 Signal Generator A SMIQ03B 834344/002 Rohde & Schwarz 04.07.06 04.07.09 834344/002 Signal Generator B SMIQ03B 832870/017 Rohde & Schwarz 24.05.07 24.05.10 832870/017 Signal Switching and SSCU 338826/005 Rohde & Schwarz - - Conditioning Unit Signalling Unit PTW60 PTW60 for 838312/014 Rohde & Schwarz - - 838312/014 TS8960 System Controller PSM12 829323/008 Rohde & Schwarz - - 829323/008 Test report Reference: MDE_MOT_0805_FCCcc Page 19 of 21

6 Photo Report Test report Reference: MDE_MOT_0805_FCCcc Page 20 of 21

7 Setup Drawings Drawing 1: Setup in the Anechoic chamber. For measurements below 1 GHz the ground was replaced by a conducting ground plane. Test report Reference: MDE_MOT_0805_FCCcc Page 21 of 21


Document Created: 2008-09-29 15:52:01
Document Modified: 2008-09-29 15:52:01
© 2024 FCC.report
This site is not affiliated with or endorsed by the FCC