HAC RF Report

FCC ID: OVF-K33BIC01

Test Report

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FCCID_1048547

FCC ID: OVF-K33BIC01 Hearing Aid Compatibility FCC 47 CFR section 20.19 Test Report Single Band CDMA Cellular Phone FCC ID: OVF-K33BIC01 Model: K33BIC-01 STATEMENT OF CERTIFICATION The data, data evaluation and equipment configuration represented herein are a true and accurate representation of the measurements of the sample’s HAC RF emissions characteristics as of the dates and at the times of the test under the conditions herein specified. STATEMENT OF COMPLIANCE This product was tested in accordance with the measurement procedures specified in ANSI C63.19-2006 and has been shown to be capable of compliance with the technical requirements of FCC 47 CFR section 20.19. Kyocera Wireless Corp. Test Location: 10300 Campus Point Drive, San Diego, CA 92121 USA Binh Thai Test performed by: Date of Test: 12/14/08 Test Technician Binh Thai Report Prepared by: Date of Report: 12/15/08 Test Technician Ngoc-Thi Nguyen Report Reviewed by: Date of Review: 12/16/08 Regulatory Engineer C. K. Li Report Approved by: Date of Approved: 12/16/08 Director of Regulatory Engineering HAC RF Report Page 1 of 1 Model: K33BIC-01

FCC ID: OVF-K33BIC01 TABLE OF CONTENTS 1 Introduction ......................................................................................................................................... 3 2 Equipment Under Test (EUT)............................................................................................................. 3 3 Summary of Test Results................................................................................................................... 3 4 Test conditions ................................................................................................................................... 4 4.1 Ambient Conditions ....................................................................................................................... 4 4.2 RF characteristics of the test site .................................................................................................. 4 4.3 Test Signal, Frequencies and Output Power ................................................................................ 4 4.4 EUT Operating Conditions............................................................................................................. 5 5 Description of the test equipment .................................................................................................... 5 5.1 Test Equipment Used .................................................................................................................... 5 5.2 Near Field Measurement System..................................................................................................6 5.3 Isotropic E-Field Probe .................................................................................................................. 6 5.4 Isotropic H-Field Probe.................................................................................................................. 7 6 System Validation ............................................................................................................................... 8 7 Description Of The Test Procedure .................................................................................................. 9 7.1 Test Positions ................................................................................................................................ 9 7.2 RF Emission Measurements Reference and Plane ...................................................................... 9 7.3 RF Emissions Measurement Procedures...................................................................................... 10 7.4 Probe Modulation Factor (PMF) .................................................................................................... 11 7.4.1 Measurement Procedures...................................................................................................... 11 7.4.2 PMF Test Results................................................................................................................... 12 7.4.3 PMF Peak Power Measurement Plots ................................................................................... 13 8 Emission Data Extraction and Post processing.............................................................................. 14 9 Measurement Uncertainty.................................................................................................................. 15 10 RF Emissions Tests............................................................................................................................ 16 10.1 Emission Limits.............................................................................................................................. 16 10.2 CDMA 1900 Test Results .............................................................................................................. 17 10.3 Worst-Case Configuration Evaluation ........................................................................................... 18 10.3.1 Peak Reading 360o Probe Rotation at Azimuth axis.............................................................. 18 11 Appendix A: Probe Calibration Certification ................................................................................... 19 12 Appendix B: System Validation Plots............................................................................................... 21 13 Appendix C: Test Results/Plots ........................................................................................................ 21 14 Appendix D: Photo Test Setup .......................................................................................................... 21 HAC RF Report Page 2 of 2 Model: K33BIC-01

FCC ID: OVF-K33BIC01 1 Introduction This test report describes the Hearing Aid Compatibility (HAC) measurement of a wireless portable device manufactured by Kyocera Wireless Corp. (KWC). These measurements were performed for compliance with the rules and regulations of the U.S. Federal Communications Commission (FCC). The testing was performed in accordance with ANSI C63.19-2006. This report covers test and data on: X RF Emissions ANSI C63.19 Clause 4 T-Coil ANSI C63.19 Clause 6 2 Equipment Under Test (EUT) Product: Single Band CDMA Cellular Phone FCC ID: OVF-K33BIC01 Model Number: K33BIC-01 EUT Serial Number: FFS10000003139 Type: [X ] Prototype, [ ] Pre-Production, [ ] Production Device Category: Portable RF Exposure Environment: General Population / Uncontrolled Antenna: Internal Antenna Detachable Antenna: No External Input: Audio/Digital Data Quantity: Quantity production is planned Modes: 1900 CDMA Multiple Access Scheme: CDMA TX Frequency (MHz): 1850 - 1910 Rated RF Conducted Output Power (dBm) 22.5 3 Summary of Test Results ANSI C63.19 (2005) Section 4 RF Emissions Test Test Results Overall Category E-Field Emissions M3 M3 H-Field Emissions M4 HAC RF Report Page 3 of 3 Model: K33BIC-01

FCC ID: OVF-K33BIC01 4 Test conditions 4.1 Ambient Conditions All tests were performed under the following environmental conditions: Ambient Temperature: 23 ± 2 Degrees C Tissue simulating liquid temperature: 22 ± 1 Degrees C Relative Humidity (RH): 0% <RH < 80% Atmospheric Pressure: 101.3kPa + 10 to –5kPa 4.2 RF characteristics of the test site All HAC measurements were performed inside a shielded room that provide isolation from external EM fields, with the RF ambient at least 20 dB below the intended measurement limits. 4.3 Test Signal, Frequencies and Output Power Peak and Average conducted power were measured for each mode for comparison. RC3 SO55 was chosen for worst-case power configuration. CONFIGURATION CONDUCTED POWER (dBm) CDMA 1900 Ch 600 Peak Average SO2, RC1 Full Rate 28.42 22.71 SO2, RC3 Full Rate 27.98 22.73 SO55, RC1 Full Rate 28.70 22.69 SO55, RC3 Full Rate 28.87 22.85 TDSO SO32, RC3 (FCH +SCH) Full Rate 27.75 22.55 TDSO SO32, RC3 (-SCH) Full Rate 28.02 22.77 HAC RF Report Page 4 of 4 Model: K33BIC-01

FCC ID: OVF-K33BIC01 During tests, the EUT was put in in-call mode and controlled by a CDMA simulator to generate the required signal and power using the configuration below. Protocol: 6 (IS-2000) Radio Configuration: 3 Power Control: All Up Bits Service Option: 55 Data Rate: Full In all operating modes, the phone was set to rate maximum RF power level and the measurements were performed on low, mid and high channels. The measurement system measures power drift during HAC testing by comparing E/H-field in the same location at the beginning and at the end of measurement. These records were used to monitor stability of power output during tests. Conducted RF power measurements were also performed before and after each HAC measurements to confirm the output power. 4.4 EUT Operating Conditions The EUT was tested with the following configurations and conditions, if applicable: X Fully charged standard as supplied with the handset X At ear use position. Both retracted and extended antenna positions X Back-light tested ON and OFF X Simultaneous transmission with Bluetooth transmitter ON 5 Description of the test equipment 5.1 Test Equipment Used Below is a list of the calibrated equipment used for the measurements: Description Manufacturer Model Serial Cal Due Number Number Date Power Meter Giga-tronics 8541C 1831038 07/15/09 Signal Generator Hewlett Packard E4421B US38440337 07/14/09 Radio Communication Tester Rohde & Schwarz CMU200 101328 03/10/09 Data Acq Speag DAE4 530 04/15/09 E-field Probe Speag ER3DV6 2341 04/17/09 H-field Probe Speag H3DV6 6123 08/18/09 Dipole Antenna (1880MHz) Speag CD1880V3 1015 04/26/09 Spectrum Analyzer Hewlett Packard 8594E 3710A04899 02/27/10 The calibration certificates of E-field and H-field probes are attached in Appendix A. HAC RF Report Page 5 of 5 Model: K33BIC-01

FCC ID: OVF-K33BIC01 5.2 Near Field Measurement System The measurements were performed with Dasy4 automated near-field scanning system comprised of high precision robot, robot controller, computer, near-field probe, probe alignment sensor, non- conductive phone positioner, Test Arch and software extension. The overall expanded uncertainty (K=2) of the measurement system is ±10.9% and ±14.7% for H-field and E-field resp. The measurement uncertainty budget is given in section 6. 5.3 Isotropic E-Field Probe Model ER3DV6 Construction One dipole parallel, two dipoles normal to probe axis Built-in shielding against static charges PEEK enclosure material (resistant to organic solvents, e.g., glycolether) Calibration In air from 100 MHz to 3.0 GHz (absolute accuracy ± 6%; k=2) Frequency 100MHz to 6 GHz Linearity: ± 0.2dB (100MHz to 3GHz) Directivity ± 0.2 dB in air (rotation around probe axis) ± 0.4 dB in air (rotation normal to probe axis) Dynamic Range 2 V/m to > 1000 V/m Linearity: ± 0.2 dB Dimensions Overall length: 330 mm (Tip: 16 mm) Tip diameter: 8 mm (Body: 12 mm) Distance from probe tip to dipole centers: 2.5 mm Application General near-field measurements up to 6 GHz Field component measurements Fast automatic scanning in phantoms HAC RF Report Page 6 of 6 Model: K33BIC-01

FCC ID: OVF-K33BIC01 5.4 Isotropic H-Field Probe Model H3DV6 Construction Three concentric loop sensors with 3.8 mm loop diameters Resistively loaded detector diodes for linear response Built-in shielding against static charges PEEK enclosure material (resistant to organic solvents, e.g., glycolether) Frequency 200 MHz to 3 GHz (± 6.0%, k=2); Output linearized Directivity ± 0.25 dB (spherical isotropy error) Dynamic Range 10 mA/m to 2 A/m at 1 GHz E-Field Interference < 10% at 3 GHz (for plane wave) Dimensions Overall length: 330 mm (Tip: 40 mm) Tip diameter: 6 mm (Body: 12 mm) Distance from probe tip to dipole centers: 3 mm Application General magnetic near-field measurements up to 3 GHz Field component measurements Surface current measurements Measurements in air or liquids Low interaction with the measured field HAC RF Report Page 7 of 7 Model: K33BIC-01

FCC ID: OVF-K33BIC01 6 System Validation The manufacturer calibrates the probes annually. The HAC measurements of the device were done within 24 hours of system accuracy verification, which was done using calibration dipoles. Unmodulated continuous wave of power level of 20dBm was supplied to a dipole antenna placed under Test Arch. The measurement probes are positioned over the illuminated dipole at 10mm distance from the top surface of the dipole element to the calibration reference point of the sensor, defined by the probe manufacturer. Figure 6 - System Check Setup The length of the dipole was scanned with both E and H-field probes and the maximum values for each were recorded. The validation results are in the table below and printouts of the validation test are attached in Appendix B. All the measured parameters were within the specification. Freq. Parameter Target, Measured Delta Limit Test date (MHz) SPEAG (%) (%) E dB(V/m) 134.5 144.9 7.73 ± 25 12-14-08 1880 H dB(A/m) 0.461 0.494 7.07 ± 25 12-14-08 HAC RF Report Page 8 of 8 Model: K33BIC-01

FCC ID: OVF-K33BIC01 7 Description Of The Test Procedure The device was positioned and setup according to ANSI C63.19-2006. 7.1 Test Positions The device was placed on a non-conductive phone positioner under the Test Arch. 7.2 RF Emission Measurements Reference and Plane Figure 7.2 illustrates the references and reference plane that shall be used in the EUT emissions measurement: • The grid is 5 cm by 5 cm area that is divided into 9 evenly sized blocks or sub-grids. • The grid is centered on the audio frequency output transducer (speaker) of the EUT. • The grid is in a reference plane, which is defined as the planar area that contains the highest point in the area of the phone that normally rests against the user's ear. It is parallel to the centerline of the receiver of the EUT and is defined by the points of the receiver-end of the EUT, which, in normal handset use, rest against the ear. • The measurement plane is parallel to, and 1.0 cm in front of, the reference plane. Vertical centerline of phone 5 x 5 cm grid Horizontal centerline of acoustic output Measurement plane 1.0 cm Reference plane Figure 7.2 – Measurement Reference and Plane HAC RF Report Page 9 of 9 Model: K33BIC-01

FCC ID: OVF-K33BIC01 7.3 RF Emissions Measurement Procedures Figure 7.6 shows the near field emission measurement flowchart: • Confirm proper operation of probes and instrumentation • Position EUT in test position • Configure EUT TX Operation • Initialize field probe and take first reading • Scan Area • Measure Drift • Identify exclusion area and then identify Rescan for E or H-Field as and record maximum reading in V/m or needed A/m All Configurations and Both E & H Field Scanned? Yes • Identify and record Category Figure 7.3 - Near field emission measurement flowchart 1. The center of the probe was scanning to the edges of the grid. Accordingly the total area covered by the outside edge of the probe was the 5 cm by 5 cm area, increased by half (½) the probe diameter on all sides. 2. The nearest point on the probe measurement element(s) was held 1.0 cm from the EUT reference plane. 3. The probe element is that portion of the probe that is designed to receive and sense the field being measured. 4. The physical body of the probe housing was not used when setting this 1.0 cm distance as this would place the sensing elements at an indeterminate distance from the reference plane. 5. The step size of the scan is set to 5 mm or less. 6. Up to three blocks were excluded for each field measurement. • The center block containing the EUT output was not excluded. • A maximum of five blocks were excluded for both E- and H-field measurements for the EUT output being measured. Stated differently, the center sub-grid or block and 3 other blocks were common to both the E- and H-field measurements for a given grid. HAC RF Report Page 10 of 10 Model: K33BIC-01

FCC ID: OVF-K33BIC01 7.4 Probe Modulation Factor (PMF) 7.4.1 Measurement Procedures A calibration was made of the modulation response of the probe and its instrumentation chain. This calibration was performed with the field probe, attached to its instrumentation. The response of the probe system to a CW field at the frequency of interest is compared to its response to a modulated signal with equal peak amplitude to that of a CW signal. The field level of the test signals shall be more than 10 dB above the ambient level and the noise floor of the instrumentation being used. The ratio of the CW reading to that taken with a modulated reading was applied to the DUT measurements. The measurement procedures are as following: 1. Fix the field probe in a set location relative to the dipole antenna, as illustrated in Figure 7.4. 2. Setup the wireless device (EUT) with intended signal at the intended measurement frequency. 3. Record the reading of the probe measurement system. 4. Replace the wireless device with a RF signal generator producing an unmodulated CW signal and set to the wireless device operating frequency. 5. Set the peak power of the unmodulated signal to equal that recorded from the wireless device 6. Record the reading of the probe measurement system of the unmodulated CW signal. 7. The ratio of probe reading (CW) in step 6 to the probe reading (EUT) in step 3 is the modulation factor. Figure 7.4 - Probe Modulation Setup The modulation factors obtained by above method shall be applied to readings taken of the actual WD, in order to obtain an accurate peak field reading. HAC RF Report Page 11 of 11 Model: K33BIC-01

FCC ID: OVF-K33BIC01 7.4.2 PMF Test Results E-Field Frequency Peak Power Protocol Protocol PMF Ratio PMF (dB) (MHz) (dBm) Reading (V/m) 21.44 CW 48.41 1880 21.42 CDMA 49.56 0.98 -0.204 21.45 AM 31.87 1.52 3.631 H-Field Frequency Peak Power Protocol Protocol PMF Ratio PMF (dB) (MHz) (dBm) Reading (A/m) 21.36 CW 0.0398 1880 21.39 CDMA 0.0415 0.96 -0.4 21.38 AM 0.0257 1.55 3.8 HAC RF Report Page 12 of 12 Model: K33BIC-01

FCC ID: OVF-K33BIC01 7.4.3 PMF Peak Power Measurement Plots CDMA-1900 CW-1900 80%AM - 1900 HAC RF Report Page 13 of 13 Model: K33BIC-01

FCC ID: OVF-K33BIC01 8 Emission Data Extraction and Post processing At the end of the measurements, the DASY4 system automatically evaluates the slot-averaged results, exclusion of the three highest sub-grid, application of the AWF factor per ANSI-C63.19 requirements. The following AWF factors were used for the standard transmission protocols: Standard Technology AWF TIA/EIA/IS-2000 CDMA 0 TIA/EIA-136 TDMA (50 Hz) 0 J-STD-007 GSM (217) -5 T1/T1P1/3GPP UMTS (WCDMA) 0 TM iDEN TDMA(22 and 11 Hz) 0 Table 7.5a - Articulation Weighting Factor (AWF) All DASY4 measurements are in RMS values. The Dasy4 system incorporates the crest factor of the signal in the computation of the RMS values. Although the software also has the capability to estimate the peak field by applying a square root of the crest factor value to the readings, the probe modulation factor was applied manually instead per ANSI C63.19 in the measurement tables in this report using equation: Peak Field = (DASY4 reading) x PMF where DASY4 reading = measurement from DASY4 in V/m or A/m PMF = Probe Modulation Factor in linear unit HAC RF Report Page 14 of 14 Model: K33BIC-01

FCC ID: OVF-K33BIC01 9 Measurement Uncertainty Table 9 shows the uncertainty budget for HAC free field assessment according to ANSI C63.19-2006. The budget is valid for the frequency range 800 MHz - 3 GHz and represents a worst-case analysis. For specific tests and configurations, the uncertainty could be smaller. Uncertainty Description Uncert. Prob. Div. Ci Ci Stand. Stand. Value Dist. (E) (H) Uncert (E) Uncert (H) (± %) (±%) (±%) Measurement system Probe calibration 5.1 N 1 1 1 5.1 5.1 Axial isotropy of the probe 4.7 R √3 1 1 2.7 2.7 Sensor displacement 16.5 R √3 1 0.145 9.5 1.4 Boundary effects 2.4 R √3 1 1 1.4 1.4 Probe linearity 4.7 R √3 1 1 2.7 2.7 Scaling to Peak Envelope Power 2.0 R √3 1 1 1.2 1.2 System Detection limit 1.0 R √3 1 1 0.6 0.6 Readout electronics 0.3 N 1 1 1 0.3 0.3 Response time 0.8 R √3 1 1 0.5 0.5 Integration time 2.6 R √3 1 1 1.5 1.5 RF ambient conditions 3.0 R √3 1 1 1.7 1.7 RF Reflections 12 R √3 1 1 6.9 6.9 Probe Positioner 1.2 R √3 1 0.67 0.7 0.5 Probe positioning 4.7 R √3 1 0.67 2.7 1.8 Extrap. and integration 1.0 R √3 1 1 0.6 0.6 Test Sample Related Device positioning vertical 4.7 R √3 1 0.67 2.7 1.8 Device Positioning Lateral 1.0 R √3 1 1 0.6 0.6 Device Holder and Phantom 2.4 R √3 1 1 1.4 1.4 Power drift 5.0 R √3 1 1 2.9 2.9 Phantom and Setup Related Phantom thickness 2.4 R √3 1 0.67 1.4 0.9 Combined Standard Uncertainty: 14.7 10.9 Extended Standard Uncertainty on Power (k=2): 29.4 21.8 Extended Standard Uncertainty on Field (k=2): 14.7 10.9 N: Normal R: Rectangular Table 9 - Worst-Case uncertainty budget for HAC free field assessment HAC RF Report Page 15 of 15 Model: K33BIC-01

FCC ID: OVF-K33BIC01 10 RF Emissions Tests 10.1 Emission Limits Table 10.1 shows the M-rating criteria from ANSCI C63.19. All digital transmission modes in all frequency bands contained in a HAC phone must meet M3 or M4 levels. Near Wireless Device RF Parameters Field [AWF = 0] E-Field Emissions H-Field Emissions Category dB(V/m) Peak V/m Peak dB(A/m) Peak V/m Peak Freq < 960 MHz M1 56.0 to 61.0 631.0 to 1122.0 5.6 to 10.6 1.91 to 3.39 M2 51.0 to 56.0 354.8 to 631.0 0.6 to 5.6 1.07 to 1.91 M3 46.0 to 51.0 199.5 to 354.8 -4.4 to 0.6 0.60 to 1.07 M4 < 46.0 < 199.5 < -4.4 < 0.60 Freq > 960 MHz M1 46.0 to 51.0 199.5 to 354.8 -4.4 to 0.6 0.60 to 1.07 M2 41.0 to 46.0 112.2 to 199.5 -9.4 to -4.4 0.34 to 0.60 M3 36.0 to 41.0 63.1 to 112.2 -14.4 to -9.4 0.19 to 0.34 M4 < 36.0 < 63.1 < -14.4 < 0.19 Table 10.1 - RF Emission Limits HAC RF Report Page 16 of 16 Model: K33BIC-01

FCC ID: OVF-K33BIC01 10.2 CDMA 1900 Test Results CDMA 1900 E-Field Configuration: At ear position Antenna Internal Ch. Back Battery BT Power Power Dasy4 PMF Peak Categor Light before after Reading Field y Test Test # dBm dBm V/m V/m M 25 ON Standard N/A 23.51 23.61 78.30 1.00 78.30 3 600 ON Standard N/A 23.73 23.50 91.40 1.00 91.40 3 1175 ON Standard N/A 23.22 23.61 66.90 1.00 66.90 3 600 OFF Standard N/A 23.73 23.50 91.60 1.00 91.60 3 600 (360°) OFF Standard N/A 23.73 23.50 88.60 1.00 88.60 3 Data plots are shown in Appendix C CDMA 1900 H-Field Configuration: At ear position Antenna Internal Ch. Back Battery BT Power Power Dasy4 PMF Peak Categor light before after Reading Field y Test Test # dBm dBm A/m M 25 ON Standard N/A 23.51 23.61 0.153 1.00 0.153 4 600 ON Standard N/A 23.73 23.50 0.167 1.00 0.167 4 1175 ON Standard N/A 23.22 23.61 0.124 1.00 0.124 4 600 OFF Standard N/A 23.73 23.50 0.167 1.00 0.167 4 600 (360°) OFF Standard N/A 23.73 23.50 0.167 1.00 0.167 4 Data plots are shown in Appendix C HAC RF Report Page 17 of 17 Model: K33BIC-01

FCC ID: OVF-K33BIC01 10.3 Worst-Case Configuration Evaluation 10.3.1 Peak Reading 360o Probe Rotation at Azimuth axis The probe was rotated 360o in the worst-case configuration. The rotation was performed at the location of maximum field strength in the included blocks. CDMA 1900 E-Field Configuration: At ear position Antenna: Internal Ch. Backlight Battery Conducted Peak Field PMF Peak Field Category Power # dBm V/m V/m M 600 OFF Standard 23.73 88.60 1.00 88.60 3 Data plots are shown in Appendix C HAC RF Report Page 18 of 18 Model: K33BIC-01

L&l\:lULl:l‘l:l e Calibration s Laboratory of y> & Schwelzerischer Kalibrierdienst . Schmid & Partner > ”"*-—H-""'-—'.—-"""J-F'"' us Service aulsse d‘éalonnage Engineering AG s wg Servigio svizzero di taratura Zeughausstrasse 43, 8004 Zurich, Switzerlard "r‘a:dfll.-r"::-.:"-,p:»:' Swiss Callbration Service "Tiap |qwitt Accradded by the Swise Accreditalion Service (8AS) Accreditation No.: 5CS 108 The Swiss Acereditation Service is ane of the signatories to the EA Multilateral Agreaement for the recognition of calibration certificates a2 w O and ie [d tS hauteildlir CALIBRATIONCERTIFICATE Chileel Callbration precedurels) Calibralion date: ‘Adgust18/2008"_ ——{—oorohc—secest c EtE Condition of the calitrated Item (Jn@Folerandce::" This cabibration cerfificate documents the traceabdily bo ralional slardards, which realize the ghysical unite of messwements (S1]. The measuremenis and the uncedtaimiies wilh conhdance probabily are given on the following pages and are part of the certiicate. All caltkralions have been conducied in thie dlosed laboratory faclity: enmsronment temperature {22 + 3)°C and humidity < 70—K. Callbraton Equipment used (M&TE eribeal foc callhration} PrimaryStandards_______________|1ID#____________._ CalDste[Cerificste No.} Scheduled iCalibration Fowar meter E44188 3811283074 1—&pr—08 [(No. 217—0078B8] Apr—OJ Powar sensor E4412A MY41495Z277 1—Apr—08 (hNo. 217—007086) Apr—08 Power sensor E4412A MTY414SBON7 1—Apr—08 (kNo. 217—00708) Apr—08 Relaranceo 3 d8 Alttonuslor SXN: 55054 {3¢) 1—lul—08 (Np. 217—006%5) Sisl—08 Releranco 20 48 Miernuater SN: 55006 (206) 41—Mar—CB (No. 217—00787) Apr—08 Reference 30 48 Atteruptor ShM: §5129 (306) 1—Jul—08 (Np. 2717—008886) Jui—09 Reference Probe H30vE SN: 618z 2—0c+—07 (No. H3—86182_Oc07] Oci—]8 DAE4 Sh: Af4 74—AprC8 (hio, DAE4—554_AproR)h Apr—GS sSecandary Standands 0# Check Date (in house) Schoduled Chack RF generator HP B548C US354201700 4—Aug—99 {in house check Gct—07] In house check: Oct—08 MNetwork Analyzer HP A7Z53E US373905805 18—0c+071 fin house check Oct—O7} In hoase chieck: Oc1—08 Calibralsd by: Approwed by: lssued: August 25, 2008 This calibration certificste shall not be reproduced axcepl in full without writen approval ed the Iaboratory. Cartificate No: H3—5123_AugOR Page 1 of 9

FCC ID: OVF-K33BIC01 HAC RF Report Page 20 of 20 Model: K33BIC-01

FCC ID: OVF-K33BIC01 12 Appendix B: System Validation Plots (See attachment) 13 Appendix C: Test Results/Plots (See attachment) 14 Appendix D: Photo Test Setup (see attachment) HAC RF Report Page 21 of 21 Model: K33BIC-01


Document Created: 2008-12-17 14:50:43
Document Modified: 2008-12-17 14:50:43
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