Test Report 2.4GHz (fka Permissive Change Class II)

FCC ID: YSGKA961

Test Report

Download: PDF
FCCID_1655700

Accreditation N° 1-0312 Scope available on www.cofrac.fr TEST REPORT RADIO Number N° 106440-611204-C-Cr-2012-01-10 Composition of document 33 pages Standards FCC Part 15 of September 9, 2009 RSS-102 of November 2005 RSS-210 of June 2007 Issued to SORIN CRM Parc d'affaires NOVEOS 4, Avenue Réaumur 92140 CLAMART Cedex Mme de JESO Apparatus under test SMARTVIEW MONITOR Trade mark SORIN GROUP Manufacturer SELCO EOLANE COMBREE Type SMARTVIEW MONITOR KA 961 (US version with GPRS) Serial number HB1107001S FCC ID YSGKA961 nd th Test date May 2 to June 14 , 2011 Tests performed by Stéphane PHOUDIAH Test site LCIE Fontenay aux Roses (92) th Initial date of issue December 7 , 2011 th Date of correction January 10 , 2012 th Date of issue January 10 , 2012 Approved by : Philippe SISSOKO This document shall not be reproduced, except in full, without the written approval of the LCIE. This document contains results related only to the item tested. It does not imply the conformity of the whole production to the items tested. Unless otherwise specified, the decision of conformity takes into account the uncertainly of measures. This document doesn’t anticipate any certification decision. The COFRAC accreditation only attests the technical capability of the testing laboratory for the tests covered by the accreditation. Only certain tests mentioned in this document are covered by the accreditation. They are identified by the symbol (*)

TEST REPORT N° 106440-611204-C-Cr-2012-01-10 Page 2 SUMMARY 1. REFERENCE DOCUMENTS .............................................................................................................. 3 2. EQUIPMENT UNDER TEST DESCRIPTION ...................................................................................... 4 3. SMARTVIEW MONITOR FUNCTIONAL DESCRIPTION ET OPERATING MODES ........................... 8 4. TEST PROGRAM ............................................................................................................................... 9 5. PEAK POWER OUTPUT .................................................................................................................. 10 6. BAND EDGE COMPLIANCE............................................................................................................. 13 7. RADIATED EMISSIONS ................................................................................................................... 15 8. 20 DB OCCUPIED BANDWIDTH ...................................................................................................... 16 9. CHANNEL SEPARATION ................................................................................................................. 17 10. MINIMUM HOPPING CHANNEL ....................................................................................................... 18 11. HOPPING SEQUENCE..................................................................................................................... 19 12. MEASUREMENT OF CONDUCTED DISTURBANCE: POWER SUPPLY ........................................ 20 13. ANNEX 1: UNCERTAINTIES CHART ............................................................................................... 21 14. ANNEX 2 (GRAPHICS) ..................................................................................................................... 22 15. ANNEX 3 (TEST EQUIPMENT LIST) ................................................................................................ 33

TEST REPORT N° 106440-611204-C-Cr-2012-01-10 Page 3 1. REFERENCE DOCUMENTS  47 CFR Part 15 of September 9, 2009: Code of federal regulations – Telecommunication –Radiofrequency devices  Radio performance tests procedures given in part 15: o Paragraph 33: frequency range of radiated measurements o Paragraph 35: measurement detector functions and bandwidths o Paragraph 203: antenna requirement o Paragraph 205: restricted bands of operation o Paragraph 207: conducted limits o Paragraph 209: radiated emission limits; general requirements o Paragraph 247: operation within the bands 2400-2483.5 MHz  RSS-Gen of June 2007: General Requirements and Information for the Certification of Radiocommunication Equipment  RSS-102 of November 2010: Radio Frequency Exposure Compliance of Radiocommunication Apparatus  RSS-210 of June 2007 - Low-power Licence-exempt Radiocommunication Devices (All Frequency Bands): Category I Equipment  ANSI C63.4 of December 11, 2003: American national standard for methods of measurement of radio noise emissions from low-voltage electrical and electronic equipment in the range of 9 kHz to 40 GHz.

TEST REPORT N° 106440-611204-C-Cr-2012-01-10 Page 4 2. EQUIPMENT UNDER TEST DESCRIPTION The SmartView Monitor (SM) is intended to collect patient’s clinical data from an Implantable Medical Device (IMD) and transfer them to data management system (Back Office server). The IMD is implanted into the patient’s body. The SmartView Monitor is installed at patient Remote and is intended to collect data from the IMD remotely in absence of physician according to scheduled operation. It is not intended to act as emergency response system. The connection between the SmartView Monitor and the implant is achieved through Radio-Frequency (RF) telemetry while the connection to the server is performed through the telephone line (fix or mobile net). SmartView Wired or wireless Monitor Paradym RF Telephone line RF SmartView Monitoring Mains supply Applicant SORIN CRM Parc d'affaires NOVEOS 4, Avenue Réaumur 92140 CLAMART Cedex Manufacturer SELCO EOLANE COMBREE Le Val d’Ombrée 49520 Combrée France Dimensions Frequencies band 402-405 MHz 2400-2483,5 MHz GSM-GPRS: Allow connection of the SM to mobile telephony. GSM / GPRS SIMCOM SIM340E quad-band module is certified by FCC according following information. - FCC IDENTIFIER: UDV-0606020080701. - Name of Grantee: Shanghai Simcom Ltd. - Equipment Class: Part 15 Class B Computing Device Peripheral. - Notes: GSM/GPRS 850/900/1800/1900 Module. Modular Type: Limited Single Modular. Number of channel 10 for 402-405 MHz band 15 for 2400-2483.5 band Channel spacing - Modulation FSK for 402-405 MHz band OOK for 2400-2483.5 band User power adjustment No Is the operation point to point? Yes Power supply Power Supply manufactured by FRIWO, model FW 7660M/05: 100-240V~ 50-60Hz 250mA, Output 5Vdc 1.6A I/O cables used for testing USB cable (only for test configuration)

TEST REPORT N° 106440-611204-C-Cr-2012-01-10 Page 5 Equipment photograph Marking plate Marking on Power Supply Marking on SMARTVIEW MONITOR

TEST REPORT N° 106440-611204-C-Cr-2012-01-10 Page 6 Block part Description - One pushbutton to allow the user to force a data transmission User interface on demand, - One status LED indicating overall system health, - 5 LEDs showing the data collection and transmission progress - Unidirectional link from RM to implant in the ISM band (2.45 RF GHz) to wake up the implant. Chipcon CC2500 chip, - Bidirectional link between the RM and the implant in the MEDRADIO band (402-405 MHz) for patient data transmission (Zarlink ZL70101 chip) Power Supply External 100-240V to 5V AC/DC adapter Power Supply manufactured by FRIWO, model FW 7660M/05: 100-240V~ 50-60Hz 250mA, Output 5Vdc 1.6A GSM / GPRS GSM-GPRS: Allow connection of the SM to mobile telephony. GSM / GPRS SIMCOM SIM340E quad-band module is certified by FCC according following information. - FCC IDENTIFIER: UDV-0606020080701. - Name of Grantee: Shanghai Simcom Ltd. - Equipment Class: Part 15 Class B Computing Device Peripheral. - Notes: GSM/GPRS 850/900/1800/1900 Module. Modular Type: Limited Single Modular. Ethernet module To be used in production for RM investigation Processor Freescale MCIMX27L chip, ARM9-based 32-bit RISC Real time clock / Battery Maxim DS1391 RTC chip with a CR1620 backup lithium cell (60 mAh) USB cable Allow connection to the RM via USB Memory (DRAM, code, data & boot - DRAM memory: Micron MT46H16M16 chip, 32 MB DDR FLASH) SDRAM memory - Flash memories: Samsung K9F5608R0D chip, 32 MB NAND flash memory

TEST REPORT N° 106440-611204-C-Cr-2012-01-10 Page 7 Antenna Type SmartView Monitor (Wake-up operating mode – ISM band): -Monopole antenna (customized by Sorin CRM) This antenna is internal and can not be removed. - HP Max gain: -1dBi max - VP Max gain: +2dBi max -IFA antenna (customized by Sorin CRM) This antenna is internal and can not be removed. - HP Max gain: -6dBi max - VP Max gain: -8dBi max SmartView Monitor (Data transmission operating mode – MEDRADIO band) This antenna is internal and can not be removed. - HP Max gain: 1,4dBi max - VP Max gain: 1,4dBi max

TEST REPORT N° 106440-611204-C-Cr-2012-01-10 Page 8 3. SMARTVIEW MONITOR FUNCTIONAL DESCRIPTION ET OPERATING MODES In the following sections the SmartView Monitor is described, highlighting its Features and Operation. Note: IMD is also described through this section as a slave of the SM. SmartView Monitor Operation The summary of mission / operation of the SmartView Monitor is the following:  SM is a device to be installed in Patient Home. o Connection to power line (wall plug adapter)  SM shall be activated after connecting it to power supply. Executes: o bootstrap; o self-diagnostic; o implant pairing (at first boot)  SM is paired through an automatic procedure to the Implant present at first boot  SM shall collect patient’s clinical data from Implanted device and transfer them to data management system (Back Office server).  The Implant data collection shall be performed according to 3 use cases: o Scheduled Patient Home Follow-up o On Alert event/status evidenced by the Implant diagnostic features o On-Demand by Patient (if enabled)  SM shall give indication to user about its correct operation and the function in progress: o SM health is ok (HW and code) o Patient should stay close to SM o Communication to IMD or BO is in progress o Error in IMD or BO communication SM Operating modes The SmartView Monitor is installed at patient Home in the context of RMS. The GPRS modem is connected to Back Office through the mobile cellular telephone net. The SmartView Monitor communicates with the implanted device on two wireless RF bands: o ISM band (2.45- GHz) for communication initialization (implant wake-up) o MEDRADIO (402-405 MHz) band for data transfer IMD Operating modes The IMD communicates with the SmartView Monitor on two wireless RF bands: o ISM band (2.45 GHz) for communication initialization (implant wake-up) o MEDRADIO (402-405 MHz) band for data transfer IMD Hardware RF bi-band communication is done using the same ultra low consumption transceiver module connected through a stripe line and a hermetic bipolar feed-thru to a unique RF antenna loop embedded to the external connector of the device. The transceiver is driven by the CPU of the device upon dedicated interrupt request raised by the RF module.

TEST REPORT N° 106440-611204-C-Cr-2012-01-10 Page 9 4. TEST PROGRAM Transmitter & Receiver requirement FCC 15.247 in 2400 – 2483.5 MHz band Test Description FCC 15.247 RSS 210 Test requirements Test results Remarks Power line conducted 15.207 (a) RSS-GEN FCC 15.207 (a) Pass emissions §7.2.2 IC: RSS-GEN Table 2 Channel separation 15.247 (a)(1) A.8.1 b) Greater than 2/3 of Pass 20dB bandwidth Time of Occupancy 15.247 (a)(1)(ii) A.8.1 c) < 0.4s in 6s Pass 20dB Occupied bandwidth 15.247 (a)(1) A.8.1 a) 500kHz Pass Peak Power Output 15.247 (b) A.8.4 (2) 1 Watt (30dBm) Pass Radiated emissions 15.247 (c) A.8.5 FCC 15.209 (a) Pass IC: RSS-210 §2.6 Pass: EUT complies with standard’s requirement Fail: EUT does not comply with standard’s requirement N/A: Not Applicable

TEST REPORT N° 106440-611204-C-Cr-2012-01-10 Page 10 5. PEAK POWER OUTPUT 5.1. TEST CONDITIONS Test performed by : Stéphane PHOUDIAH Date of test : 2011/05/06 Ambient temperature : 21°C Relative humidity : 37% 5.2. TEST SETUP Method of measurement FCC 15.247 (b) Qualification measurements in the 3 meters full anechoic chamber The setup is 1.5m above the ground reference plane on a wooden table. Distance between measuring antenna and the EUT is 3 meters.The measuring antenna is in vertical and then in horizontal polarization. Continuous linear turntable azimuth search was performed with 360 degrees range. The substitution antenna replaces the equipment under test for Effective Radiated Power (ERP) measurement. Power is measured for the same level of radiated field strength obtained on the measuring antenna. The EUT was emitting with normal modulation, on lowest, middle and highest channel. The equivalent isotropic radiated power (eirp in dBm) is defined with the following formula: EIRP = A + G + 10 Log (1/x) with A (dBm): mean power at the output of the transmitter G (dBi): product antenna gain x: duty cycle = (Ton)/(Ton+Toff) Measurement of the mean power at the output of the transmitter Determination of antenna gain: as declared by the applicant Measurement of the duty cycle: span 0 with spectrum analyzer For measurement under extreme test conditions, the Equipment Under Test is installed in the climatic chamber.

TEST REPORT N° 106440-611204-C-Cr-2012-01-10 Page 11

TEST REPORT N° 106440-611204-C-Cr-2012-01-10 Page 12 5.3. TEST SEQUENCE AND RESULTS Maximum test result with monopole and IFA antenna: Temperature 0°C 21°C +55°C Power voltage: 207Vdc FLow FMiddle FHigh FLow FMiddle FHigh FLow FMiddle FHigh EIRP (dBm) 17,4 17,7 17,3 17,9 17,2 16,7 17,2 17,6 16,7 Power voltage: 230Vdc FLow FMiddle FHigh FLow FMiddle FHigh FLow FMiddle FHigh EIRP (dBm) 17,2 17,3 17,1 17,6 17,1 16,8 17,5 17,3 17 Power voltage: 253Vdc FLow FMiddle FHigh FLow FMiddle FHigh FLow FMiddle FHigh EIRP (dBm) 17,5 17,5 17 17,8 17,4 16,5 17,5 17,2 16,9 Maximum peak power output observed is 17,9 dBm when the temperature is varied from 0°C to +55°C and when the power voltage is varied from 207 Vac to 253 Vac. Limit:  30dBm / 1W Result: PASS 5.4. CONCLUSION Maximum peak power output test performed on the sample of the product “SMARTVIEW MONITOR KA961”, in configuration and description presented in this test report, show levels below the FCC limits.

TEST REPORT N° 106440-611204-C-Cr-2012-01-10 Page 13 6. BAND EDGE COMPLIANCE 6.1. TEST CONDITIONS Test performed by : Stéphane PHOUDIAH Date of test : 2011/05/10 and 2011/05/11 Ambient temperature : 21°C Relative humidity : 37% 6.2. TEST SETUP Method of measurement FCC 15.247 (c) The EUT was emitting with normal modulation, on lowest and highest channel. The Equipment Under Test is installed on a table. A test fixture has been used. Band edge is measured with a spectrum analyzer on the EUT RF conducted access.

TEST REPORT N° 106440-611204-C-Cr-2012-01-10 Page 14 6.3. TEST SEQUENCE AND RESULTS The transmitter range of modulation bandwidth is measured at 20dB below the peak power. Maximum test result with monopole and IFA antenna: Temperature +21°C Power voltage: 230Vdc FLow FHigh Frequency (MHz) 2419,7 2460,3 See graphic N°1 in annex 2 Maximum Frequency range observed is 2419,7MHz to 2460,3MHz Limit:  Transmitter range of operating frequencies shall be inside the allocated frequency band 2400 – 2483.5MHz. FL shall be > 2.4000GHz FH shall be < 2.4835GHz Result: PASS 6.4. CONCLUSION Band edge test performed on the sample of the product “SMARTVIEW MONITOR KA961”, in configuration and description presented in this test report, show levels below the FCC limits.

TEST REPORT N° 106440-611204-C-Cr-2012-01-10 Page 15 7. RADIATED EMISSIONS 7.1. TEST CONDITIONS Test performed by : Stéphane PHOUDIAH Date of test : 2011/06/14 Ambient temperature : 20°C Relative humidity : 40% 7.2. TEST SETUP The tested equipment is set to transmit operation on low, middle and high channel. Method of measurement FCC 15.247 (b) Characterization in semi-anechoic chamber (30MHz to 25 GHz): The setup is 1.5m above the ground reference plane on a wooden table. Distance between measuring antenna and the EUT is 3 meters. The measuring antenna is in vertical and then in horizontal polarization. Measurement bandwidth was 100 kHz. Continuous linear turntable azimuth search was performed with 360 degrees range. 7.3. TEST SEQUENCE AND RESULTS Characterization in semi anechoic chamber (30MHz to 25GHz): Frequency Measure Limit (MHz) (dBµV/m) (dBµV/m) 30 28,9 40 34 27,2 40 42,7 29,2 40 43,6 27 40 57,8 27,6 40 91 31,5 43,5 98,5 30,9 43,5 233,8 29,9 46 251 28,7 46 2284 46,7 53,9 2362 49,5 53,9 2596 44,5 53,9 2383 49,2 53,9 2303 40,8 53,9 2536,5 41,1 53,9 4306 39,4 53,9 5537,5 42,1 53,9 See Graphics N°2 to N°4 in annex 2 Result: PASS 7.4. CONCLUSION Radiated emissions test performed on the sample of the “SMARTVIEW MONITOR KA961” in configuration and description presented in this test report, show levels below the FCC limits.

TEST REPORT N° 106440-611204-C-Cr-2012-01-10 Page 16 8. 20 dB OCCUPIED BANDWIDTH Test performed by : Stéphane PHOUDIAH Date of test : 2011/05/10 Ambient temperature : 21°C Relative humidity : 37% METHOD OF MEASUREMENT FCC 15.247 (a)(1) TEST SETUP The test is performed on EUT in permanent emission with modulation and hopping. Channel Separation is measured with a spectrum analyzer on the EUT RF conducted access. MEASUREMENT DATA Measured 20dB occupied bandwidth: 2.136MHz See Graphics N°6 in annex 2 Limit: The minimum limit of channel separation is 500kHz Result: PASS CONCLUSION 20dB occupied bandwidth test performed on the sample of the “SMARTVIEW MONITOR KA961” in configuration and description presented in this test report, show levels below the FCC limits.

TEST REPORT N° 106440-611204-C-Cr-2012-01-10 Page 17 9. CHANNEL SEPARATION 9.1. TEST CONDITIONS Test performed by : Stéphane PHOUDIAH Date of test : 2011/05/10 and 2011/05/11 Ambient temperature : 21°C Relative humidity : 37% 9.2. SET-UP Method of measurement FCC 15.247 (a)(1) Qualification measurements on a table The test is performed on EUT in permanent emission with modulation and hopping. Channel Separation is measured with a spectrum analyzer on the EUT RF conducted access. 9.3. RESULT Measured 2/3*(20dB occupied bandwidth): 1,424MHz Measured channel separation: 2,675 MHz See Graphics N°5 and N°6 in annex 2 Limit: The minimum limit of channel separation is 25kHz or 1,424MHz Result: PASS 9.4. CONCLUSION Channel separation test performed on the sample of the “SMARTVIEW MONITOR KA961” in configuration and description presented in this test report, show levels below the FCC limits.

TEST REPORT N° 106440-611204-C-Cr-2012-01-10 Page 18 10. MINIMUM HOPPING CHANNEL 10.1. TEST CONDITIONS Test performed by : Stéphane PHOUDIAH Date of test : 2011/05/10 and 2011/05/11 Ambient temperature : 21°C Relative humidity : 37% 10.2. SET-UP Method of measurement FCC 15.247 (a)(1)(iii) Qualification measurements on a table The test is performed on EUT in permanent emission with modulation and hopping. Minimum Hopping channel is measured with a spectrum analyzer on the EUT RF conducted access. 10.3. RESULT Measured channel number: 15 See Graphic N°7 in annex 2 Limit: The minimum limit of channel number is 15 Result: PASS 10.4. CONCLUSION Minimum hopping channel test performed on the sample of the “SMARTVIEW MONITOR KA961” in configuration and description presented in this test report, show levels below the FCC limits.

TEST REPORT N° 106440-611204-C-Cr-2012-01-10 Page 19 11. HOPPING SEQUENCE 11.1. TEST CONDITIONS Test performed by : Stéphane PHOUDIAH Date of test : 2011/05/10 and 2011/05/11 Ambient temperature : 21°C Relative humidity : 37% 11.2. SET-UP Method of measurement FCC 15.247 (a)(1)(iii) Qualification measurements on a table The test is performed on EUT in permanent emission with modulation and hopping. Minimum Hopping channel is measured with a spectrum analyzer on the EUT RF conducted access. 11.3. RESULT Measured dwell time: 0,182s*2= 0,364s. The system has successively 2 emissions, (IFA antenna and monopole antenna). Measured period: 5,65s See Graphics N°8 and N°9 in annex 2 Limit: The maximum limit of dwell time is 0,4s The maximum period 6s Result: PASS 11.4. CONCLUSION Hopping sequence test performed on the sample of the “SMARTVIEW MONITOR KA961” in configuration and description presented in this test report, show levels below the FCC limits.

TEST REPORT N° 106440-611204-C-Cr-2012-01-10 Page 20 12. MEASUREMENT OF CONDUCTED DISTURBANCE: POWER SUPPLY Specifications Test method according FCC Part 15.207 FCC Part 15 (2009) Frequency 0.15 – 30 MHz Limit See summary table Power supply : Class B Detector Peak , Quasi Peak and average RBW 9 kHz Operating conditions Comments The measurement is performed on power supply with a LISN and telecommunication lines with RSI or current clamp for shielded cables. Equipment list See at the end of the paragraph Deviation method No Product installation The EUT is installed on a wooden table 80 cm above the reference plane, 40 cm from vertical plane, at 80cm of the LISN. Operating mode Nominal Conclusion The product is compliant with the standard Measure on main power supply Line Operating mode Graphics Comments Phase Nominal N°10 Pass Neutral Nominal N°11 Pass Wooden table Ground plane Measuring receiver pulse limiter EUT 80cm LISN 40 cm Test set up of conducted emission on power supply

TEST REPORT N° 106440-611204-C-Cr-2012-01-10 Page 21 13. ANNEX 1: UNCERTAINTIES CHART Maximum measurement uncertainties Wide uncertainty uncertainty limit Kind of test laboratory y(dB) (k=2) x(dB) / (Hz) TRANSMITTER REQUIREMENTS 2.10 Hz 1.10 Hz -8 -7 Frequency error Effective radiated Power  Frequency < 1000 MHz 5.72 dB 6 dB  Frequency > 1000 MHz 5.69 dB Range of modulation bandwidth for wide band equipment Unwanted Emission  Frequency < 1000 MHz 5.72 dB 6 dB  Frequency > 1000 MHz 5.46 dB

TEST REPORT N° 106440-611204-C-Cr-2012-01-10 Page 22 14. ANNEX 2 (GRAPHICS) Graphic N°1 Band Edge 230Vdc 21°C * RBW 30 kHz * Att 25 dB * VBW 100 kHz M2[1] - 26. 73 dBm Batt Ref 15.0 dBm SWT 110ms 2. 460369261 GHz M1[1] - 26. 60 dBm 10 dBm 1Pk 2. 419650000 GHz Max 0 dBm D1 -5.500 dBm -10 dBm -20 dBm M1 M2 D2 -25.500 dBm -30 dBm -40 dBm -50 dBm -60 dBm -70 dBm -80 dBm CF 2.44 GHz Span 100.0 MHz Date: 10.MAY.2011 15:21:46

TEST REPORT N° 106440-611204-C-Cr-2012-01-10 Page 23 Graphic N°2 Radiated Emission Vertical Polarization 230Vdc 21°C

TEST REPORT N° 106440-611204-C-Cr-2012-01-10 Page 24 Graphic N°3 Radiated Emission Horizontal Polarization 230Vdc 21°C

TEST REPORT N° 106440-611204-C-Cr-2012-01-10 Page 25 Graphic N°4 Radiated Emission Horizontal Polarization 230Vdc 21°C

TEST REPORT N° 106440-611204-C-Cr-2012-01-10 Page 26 Graphic N°5 Channel Separation 230Vdc 21°C * RBW 30 kHz * Att 25 dB * VBW 100 kHz D2[1] 0. 27 dB Batt Ref 15.0 dBm SWT 15ms 2. 675000000 MHz M1[1] - 5. 25 dBm 10 dBm 1Pk 2. 440180000 GHz Max 0 dBm M1 D2 -10 dBm -20 dBm -30 dBm -40 dBm -50 dBm -60 dBm -70 dBm -80 dBm CF 2.44 GHz Span 10.0 MHz Date: 10.MAY.2011 15:36:30

TEST REPORT N° 106440-611204-C-Cr-2012-01-10 Page 27 Graphic N°6 20dB Occupied Bandwidth 230Vdc 21°C * RBW 30 kHz * Att 25 dB * VBW 100 kHz D2[1] 0. 04 dB Batt Ref 15.0 dBm SWT 15ms 2. 136000000 MHz M1[1] - 25. 76 dBm 10 dBm 2. 439062000 GHz 1Pk Max 0 dBm D1 -5.500 dBm -10 dBm -20 dBm M1 D2 D2 -25.500 dBm -30 dBm -40 dBm -50 dBm -60 dBm -70 dBm F2 -80 dBm F1 CF 2.44 GHz Span 10.0 MHz Date: 10.MAY.2011 16:02:03

TEST REPORT N° 106440-611204-C-Cr-2012-01-10 Page 28 Graphic N°7 Minimum Hopping Channel 230Vdc 21°C * RBW 30 kHz * Att 25 dB * VBW 100 kHz Batt Ref 15.0 dBm SWT 110ms 10 dBm 1Pk Max 0 dBm -10 dBm -20 dBm -30 dBm -40 dBm -50 dBm -60 dBm -70 dBm -80 dBm CF 2.44 GHz Span 100.0 MHz Date: 10.MAY.2011 15:24:44

TEST REPORT N° 106440-611204-C-Cr-2012-01-10 Page 29 Graphic N°8 Dwell Time 230Vdc 21°C * RBW 100 kHz * Att 25 dB * VBW 300 kHz D2[1] 61. 43 dB Batt Ref 15.0 dBm * SWT 300ms 182. 400000000 ms M1[1] - 60. 74 dBm 10 dBm - 900. 000000000 µs 1AP Clrw D2 0 dBm TRG -7.000 dBm -10 dBm -20 dBm -30 dBm -40 dBm Trg -50 dBm Vid M1 -60 dBm -70 dBm -80 dBm CF 2.44 GHz 30.0 ms/ Date: 10.MAY.2011 16:12:29

TEST REPORT N° 106440-611204-C-Cr-2012-01-10 Page 30 Graphic N°9 Number of burst for Time of Occupancy 230Vdc 21°C * RBW 100 kHz * Att 25 dB * VBW 300 kHz D2[1] - 0. 03 dB Batt Ref 15.0 dBm * SWT 21.9s 5. 659500000 s M1[1] 1. 53 dBm 10 dBm - 3. 000000000 ms 1APM1 Clrw D2 0 dBm TRG -7.000 dBm -10 dBm -20 dBm -30 dBm -40 dBm Trg -50 dBm Vid -60 dBm -70 dBm -80 dBm CF 2.44 GHz 2.19 s/ Date: 10.MAY.2011 16:15:10

TEST REPORT N° 106440-611204-C-Cr-2012-01-10 Page 31 Graphic N°10 Conducted emission Phase line 110V/60Hz 90 dBµV 0 150kHz 30MHz Fréquence (MHz) FCC PART 15 classe BB

TEST REPORT N° 106440-611204-C-Cr-2012-01-10 Page 32 Graphic N°11 Conducted emission Neutral line 110V/60Hz 90 dBµV 0 150kHz 30MHz Fréquence (MHz) FCC PART 15 classe BB

TEST REPORT N° 106440-611204-C-Cr-2012-01-10 Page 33 15. ANNEX 3 (TEST EQUIPMENT LIST) Test Apparatus Trade Mark Type Registration number X Full anechoic chamber SIEPEL S36 D3044019 X Bilog Antenna CHASE CBL 6111C C2040124 X Double Ridge Guide Horn Antenna AH SYSTEMS SAS-S71 C2042041 X Logperiodic antenna AMPLIFIER RESEARCH ATR80M6G C2040149 X Preamplier BONN Elektronik BLNA 3018-8F30S A7080053 X Climatic Chamber SECASI Technologies SLT-34 D1024029 X Horn antenna EMCO .3115 C2042016 X Bilog antenna CHASE CBL 6112A C2040040 X Semi anechoic chamber SIEPEL C01 D3044008 X Signal Generator HP 8657B A5442019 X Power meter GIGATRONICS 8542C A1503009 X Probe GIGATRONICS 80401A A1509027 X Filter BL microwave B2440-120/H-4C1ASJ A7120006 X Spectrum analyzer FSL6 R&S A4060032 X EMI Test Receiver ROHDE & SCHWARZ ESMI A2642009 X Power supply 1501L CALIFORNIA INSTRUMENT A7042261 ________________________End of this test report________________________


Document Created: 2012-01-11 09:16:36
Document Modified: 2012-01-11 09:16:36
© 2024 FCC.report
This site is not affiliated with or endorsed by the FCC