Test Report FCC Part 5, Subpart C, Section 5.247 Industry Canada RSS-, Issue 7 Report Number: CWD67-Cert Model: CWD67 Date: March 3, 0 Prepared by: Grace Lin Date: Mar. 3, 0 Grace Lin, Sr. Compliance Engineer Reviewed by: Wayne Owens Date: Mar. 3, 0 Wayne Owens, Director of Program Management Page of 33
Table of Contents. GENERL DESCRIPTION... 3. PRODUCT DESCRIPTION... 3.2 TEST METHODOLOGY... 3.3 TEST FILITY... 3.4 TEST EQUIPMENT... 4.5 EVLUTION SUMMRY... 4 2. SYSTEM TEST CONFIGURTION... 5 2. JUSTIFICTION... 5 2.2 BLOCK DIGRM... 5 2.3 EUT EXERCISE SOFTWRE ND MODE(S) OF OPERTION... 5 2.4 CBLES... 5 2.5 SPECIL CESSORIES... 6 2.6 SUPPORT EQUIPMENT... 6 2.7 EQUIPMENT MODIFICTIONS... 6 3. EVLUTION... 7 3. NTENN REQUIREMENTS... 7 3.2 6 DB BNDWIDTH... 8 3.3 99% BNDWIDTH... 3.4 POWER OUTPUT... 3 3.5 BND EDGE... 6 3.6 CONDUCTED SPURIOUS EMISSIONS... 8 3.7 POWER SPECTRL DENSITY... 22 3.8 RDITED SPURIOUS EMISSIONS... 25 3.9 RECEIVER RDITED EMISSIONS... 3.0 RECEIVER POWER LINE CONDUCTED EMISSIONS... 32 Page 2 of 33
. General Description. Product Description The equipment under test (EUT) is a Crestron 2.4GHz two-way RF transceiver module, model: CWD67. There are six (6) different build options for this module. The options specify the number of installed push buttons/switches, the number and color of installed LEDs. ll other portions of the module are identical. The test sample is the first option with all switches and LEDs installed..2 Test Methodology Measurements were performed according to the following procedures and standards: ) NSI C63.4: 03 2) FCC Procedure, Measurement of Digital Transmission Systems Operating under Section 5.247, March 23, 05 3) Industry Canada RSS-Gen Issue 2 4) Industry Canada RSS- Issue 7 5) Industry Canada ICES-003 Issue 4 ll measurements were performed in a 3-meter semi-anechoic chamber and the control room..3 Test Facility The 3-meter semi-anechoic chamber used to collect conducted and radiated emission data is located at 22 Link Drive, Rockleigh, New Jersey. This test facility has been placed on file with the FCC, Registration Number: 4287, and Industry Canada, Site Number: 5683C-. Page 3 of 33
.4 Test Equipment Description Model Serial No. Frequency Range Calibration Date R&S EMI Receiver ESU 00076 Hz GHz Dec. 22, 09 Teseq Bilog ntenna CBL 62D 2523 MHz 2 GHz Jan. 28, 0 ETS-Lindgren Double Ridge Horn ntenna 37 000475 GHz 8 GHz Jan. 27, 0 R&S Preamplifier TS-PR8 00044 MHz 8 GHz Feb. 9, 0 ETS-Lindgren Standard Gain Horn ntenna 3-09 000789 8 GHz 26.5 GHz pr. 3, 09 R&S Preamplifier TS-PR26 000 8 GHz 26.5 GHz Feb. 23, 0 Solar Electronics LISN 9252--R-24-N 068546 0 khz MHz Feb. 3, 0.5 Evaluation Summary FCC Rule Section IC Description/Parameters Results 5.3 N/ ntenna Requirement Complies 5.247(a)(2) 8.2(a) of RSS- 6 db Bandwidth, 0 khz Complies 5.247(b)(3) 5.247(d) 5.247(d) 5.247(e) N/ 4.6. of RSS-Gen 99% Occupied Bandwidth 5.5, 5.9, 5.247(d) 8.4(4) of RSS- 2., 8.5 of RSS- 8.5 of RSS- 8.2(b) of RSS- 2.2, 2.7, 8.5 of RSS- Power Output, conducted, Watt (dbm) Band Edge Conducted Spurious Emissions, dbc Power Spectral Density (D), 8 dbm in any 3 khz band. Radiated Spurious Emissions (for reporting purpose) Complies Complies Complies Complies Complies 5.0(b) 6 of RSS-Gen Receiver Radiated Emission Complies 5.07 7.2.2 of RSS-Gen Note: The channels selected for test were, 8, and 26. Receiver Power Line Conducted Emissions Complies Page 4 of 33
2. System Test Configuration 2. Justification The EUT was connected to a test box. DC power supply supplied power to the EUT. computer supplied test commands through the test box. 2.2 Block Diagram Block diagram is shown below. EUT Test Box (for setup only) Computer (for setup only) DC Power Supply Power Supply dapter V Power Source 2.3 EUT Exercise Software and Mode(s) of Operation The EUT was configured to transmit continuously. Channels (25 MHz), 8 (24 MHz), and 26 (24 MHz) were selected for test. 2.4 Cables Qty Description Length (m) From - To Shielded/ Unshielded Power Cord.5 Power Source Computer Unshielded Cat 6 Crossover 0.6 Computer Test Box Unshielded 0-conductor Flat Cable 0.3 Test Box EUT Unshielded Page 5 of 33
2.5 Special ccessories There are no special accessories for compliance of this EUT. 2.6 Support equipment No Description Manufacturer Model No Serial No Computer DELL PP02X 38754497 2 dapter DELL L0-00 CN-0DF266-765-68-2B 3 Test Box ember Not Labeled ember02 4 Power Supply CUI 3-6WP2 Not Labeled 5 DC Power Supply BK Precision 6 28-252 2.7 Equipment Modifications There were no modifications installed during compliance measurements. Page 6 of 33
3. Evaluation 3. ntenna Requirements This module is validated with the following antenna: Type: Construction: Gain: 5/8-wavelength, inverted-f antenna, center frequency 2.45 GHz Post and strip 2.66 dbi, max The antennas connectors are unique in the sense of complying with FCC 5.3, 5.4(b), and 5.4(c). Page 7 of 33
3.2 6 db Bandwidth Performance Criterion: The minimum 6 db bandwidth shall be at least 0 khz. Test Results: Complies Test Details: Refers to the following block diagram, data table, and receiver screen captures. The EUT was tested in a continuous transmit mode with maximum power levels of 3 (channels and 8) and 252 (channel 26) at boost mode. EMI Receiver EUT DC Power Supply Channel Frequency (MHz) 6 db Bandwidth (khz) 25 538 8 24 57 26 24 563 Note: The RF level in the plots is relative and is not the indication of RF output power. Page 8 of 33
6 db Bandwidth, Channel : CH Ref dbµv tt db RBW 00 khz VBW 0 khz SWT 2.5 ms Delta 3 [T ] -5.64 db.00965385 MHz 0 00 2 3 Marker [T ] 04.28 dbµv 2.469553 GHz Delta 2 [T ] -5.97 db -528.84653837 khz Center 2.5 GHz 0 khz/ Span 5 MHz Date: 3.MR.0 4:4:47 6 db Bandwidth, Channel 8: CH8 Ref dbµv tt db RBW 00 khz VBW 0 khz SWT 2.5 ms Delta 3 [T ] -5.79 db 528.84653852 khz 0 00 2 3 Marker [T ] 05.06 dbµv 2.4032 GHz Delta 2 [T ] -5.93 db -.04666667 MHz Center 2.44 GHz 0 khz/ Span 5 MHz Date: 3.MR.0 4:8:22 Page 9 of 33
6 db Bandwidth, Channel 26: CH26 Ref dbµv tt db RBW 00 khz VBW 0 khz SWT 2.5 ms Delta 3 [T ] -5.83 db 528.84653843 khz 0 00 Marker [T ] 96.45 dbµv 2.48333 GHz Delta 2 [T ] -5.34 db -.033653846 MHz 2 3 Center 2.48 GHz 0 khz/ Span 5 MHz Date: 3.MR.0 4:22: Page 0 of 33
3.3 99% Bandwidth Test Details: Refers to the following block diagram, data table, and receiver screen captures. The EUT was tested in a continuous transmit mode with maximum power levels of 3 (channels and 8) and 252 (channel 26) at boost mode. EMI Receiver EUT DC Power Supply Channel Frequency (MHz) 99% Bandwidth (MHz) 25 2.356 8 24 2.388 26 24 2.8 Note: The RF level in the plots is relative and is not the indication of RF output power. 99% Bandwidth, Channel : CH Ref dbµv tt db RBW 00 khz VBW 0 khz SWT 2.5 ms Marker [T ] 00.78 dbµv 2.00000 GHz P 0 00 OBW 2.35576923 MHz Temp [T OBW] 85.47 dbµv 2.37626 GHz Temp 2 [T OBW] 83.79 dbµv 2.62795 GHz T T2 Center 2.5 GHz 0 khz/ Span 5 MHz Date: 3.MR.0 4:27:00 Page of 33
99% Bandwidth, Channel 8: CH8 Ref dbµv tt db RBW 00 khz VBW 0 khz SWT 2.5 ms Marker [T ] 97.49 dbµv 2.4000000 GHz OBW 2.387853 MHz P 0 00 Temp [T OBW] 86.55 dbµv 2.438725962 GHz Temp 2 [T OBW] 87.0 dbµv 2.443782 GHz T T2 Center 2.44 GHz 0 khz/ Span 5 MHz Date: 3.MR.0 4:28:28 99% Bandwidth, Channel 26: CH26 Ref dbµv tt db RBW 00 khz VBW 0 khz SWT 2.5 ms Marker [T ] 87.02 dbµv 2.00000 GHz OBW 2.76928 MHz P 0 00 Temp [T OBW] 8.25 dbµv 2.4787977 GHz Temp 2 [T OBW] 77.55 dbµv 2.45769 GHz T T2 Center 2.48 GHz 0 khz/ Span 5 MHz Date: 3.MR.0 4:24:5 Page 2 of 33
3.4 Power Output Performance Criterion: exceed Watt. The maximum peak conducted output power shall not Test Results: Complies Test Details: The EUT was tested in a continuous transmit mode with maximum power levels of 3 (channels and 8) and 252 (channel 26) at boost mode. Refers to the following block diagram, data table, and receiver screen captures. EMI Receiver EUT DC Power Supply Channel Frequency Power Power Level (MHz) dbm mw 25 3..54 8 24 3 2.37.726 26 24 252-4.75 0.335 Note: The insertion loss was compensated for in the receiver. Page 3 of 33
Power Output, Channel : CH Ref 0 dbm * tt 0 db * RBW 2 MHz VBW 5 MHz SWT 2.5 ms Marker [T ]. dbm 2.5352564 GHz 0 0-0 - TDS - - - - - - - Center 2.5 GHz MHz/ Span 0 MHz Date: 3.MR.0 4:57: Power Output, Channel 8: CH8 Ref 0 dbm * tt 0 db * RBW 2 MHz VBW 5 MHz SWT 2.5 ms Marker [T ] 2.37 dbm 2.439433 GHz 0 0-0 - TDS - - - - - - - Center 2.44 GHz MHz/ Span 0 MHz Date: 3.MR.0 4:59:54 Page 4 of 33
Power Output, Channel 26: CH26 Ref 0 dbm * tt 0 db * RBW 2 MHz VBW 5 MHz SWT 2.5 ms Marker [T ] -4.75 dbm 2.4794277 GHz 0 0-0 - TDS - - - - - - - Center 2.48 GHz MHz/ Span 0 MHz Date: 3.MR.0 4:55:7 Page 5 of 33
3.5 Band Edge Performance Criterion: In any 00 khz bandwidth outside the frequency band, the RF power shall be at least db below that in the 00 khz bandwidth within the band. Test Results: Complies Test Details: Refers to the following block diagram and receiver screen captures EMI Receiver EUT DC Power Supply Page 6 of 33
Band Edge: CH Ref 7 dbµv * tt 0 db * RBW 00 khz VBW 0 khz SWT 0 ms Delta 2 [T ] -4.3 db -4.6870000 MHz 0 Marker [T ] 04. dbµv 2.47538 GHz 00 2 Center 2.4 GHz.5 MHz/ Span 5 MHz Date: 3.MR.0 4::5 CH26 Ref 7 dbµv * tt 0 db * RBW 00 khz VBW 0 khz SWT 0 ms Delta 2 [T ] -37.64 db 4.58653846 MHz 0 Marker [T ] 97.37 dbµv 2.479677885 GHz 00 2 Center 2.4835 GHz.5 MHz/ Span 5 MHz Date: 3.MR.0 4:44:08 Page 7 of 33
3.6 Conducted Spurious Emissions Performance Criterion: In any 00 khz bandwidth outside the frequency band, the radio frequency power shall be at least db below that in the 00 khz bandwidth within the band. Test Results: Complies Test Details: Refers to the following block diagram and receiver screen captures Note: The EUT was tested in a continuous transmit mode with maximum power levels of 3 (channels and 8) and 252 (channel 26) at boost mode. The RF level in the screen captures is relative and is not the indication of RF output power. EMI Receiver EUT DC Power Supply Page 8 of 33
Conducted Spurious Emission Channel CH Ref 7 dbµv * tt 0 db * RBW 00 khz VBW 0 khz SWT 00 ms Marker [T ] 37.3 dbµv 5.682564 MHz 0 00 Start MHz 97 MHz/ Stop GHz Date: 3.MR.0 4:38:46 CH Ref 7 dbµv * tt 0 db * RBW 00 khz VBW 0 khz SWT 2.4 s Marker [T ] 02.4 dbµv 2.38465385 GHz 0 00 Start GHz 2.4 GHz/ Stop 25 GHz Date: 3.MR.0 4:38:00 Page 9 of 33
Conducted Spurious Emission Channel 8 CH8 Ref 7 dbµv * tt 0 db * RBW 00 khz VBW 0 khz SWT 00 ms Marker [T ] 37.36 dbµv.5769277 MHz 0 00 Start MHz 97 MHz/ Stop GHz Date: 3.MR.0 4:32:36 CH8 Ref 7 dbµv * tt 0 db * RBW 00 khz VBW 0 khz SWT 2.4 s Marker [T ] 02.53 dbµv 2.4276923 GHz 0 00 Start GHz 2.4 GHz/ Stop 25 GHz Date: 3.MR.0 4:35:52 Page of 33
Conducted Spurious Emission Channel 26 CH26 Ref 7 dbµv * tt 0 db * RBW 00 khz VBW 0 khz SWT 00 ms Marker [T ] 37.57 dbµv.53846538 MHz 0 00 Start MHz 97 MHz/ Stop GHz Date: 3.MR.0 4:45:4 CH26 Ref 7 dbµv * tt 0 db * RBW 00 khz VBW 0 khz SWT 2.4 s Marker [T ] 96.06 dbµv 2.46538462 GHz 0 00 Start GHz 2.4 GHz/ Stop 25 GHz Date: 3.MR.0 4:46:02 Page 2 of 33
3.7 Power Spectral Density Performance Criterion: in any 3 khz band. The power spectral density shall not be greater than 8 dbm Test Results: Complies Test Details: The EUT was tested in a continuous transmit mode with maximum power levels of 3 (channels and 8) and 252 (channel 26). Refers to the following table and receiver screen captures. The insertion loss was compensated for in the receiver. EMI Receiver EUT DC Power Supply Channel Frequency (MHz) Power Spectral Density (dbm) 25-2.43 8 24 -.89 26 24-8.95 Page 22 of 33
Power Spectral Density, Channel : CH Ref 0 dbm 0 * RBW 3 khz VBW 0 khz * tt 0 db * SWT 0 s Marker [T ] -2.43 dbm 2.358 GHz 0 MXH -0 - TDS - - - - - - - Center 2.5 GHz khz/ Span.5 MHz Date: 3.MR.0 5:2: Power Spectral Density, Channel 8: CH8 Ref 0 dbm 0 * RBW 3 khz VBW 0 khz * tt 0 db * SWT 0 s Marker [T ] -.89 dbm 2.4038462 GHz 0 MXH -0 - TDS - - - - - - - Center 2.44 GHz khz/ Span.5 MHz Date: 3.MR.0 5:23:04 Page 23 of 33
Power Spectral Density, Channel 26: CH26 Ref 0 dbm 0 * RBW 3 khz VBW 0 khz * tt 0 db * SWT 0 s Marker [T ] -8.95 dbm 2.33654 GHz 0 MXH -0 - TDS - - - - - - - Center 2.48 GHz khz/ Span.5 MHz Date: 3.MR.0 5:33:42 Page 24 of 33
3.8 Radiated Spurious Emissions Performance Criterion: Radiated spurious emissions which fall in the restricted bands must comply with the radiated emission limits specified in FCC 5.9(a) and Table 2 of IC RSS-. Test Results: Complies Test Details: Radiated spurious emission was performed from MHz to the tenth harmonics of the carrier. For each scan of radiated emission measurement, the procedures for maximizing emissions were followed. The EUT was rotated and antenna height was varied between m and 4 m in order to maximize the emission. Measurements in both horizontal and vertical polarities were made and the data was recorded. ll radiated emission measurements, up to 8 GHz, were performed at 3-meter distance between an antenna and the EUT. ll radiated emission measurements, above 8 GHz, were performed at 0.3-meter distance between an antenna and the EUT. The peak level of radiated emissions above GHz was measured with a resolution bandwidth (RBW) of MHz and a video bandwidth (VBW) of 3 MHz. For harmonics/spurs that fall in the restricted band, the radiated spurious emissions above GHz were measured with RBW of MHz, VBW of 0 Hz, and Sweep of uto. The unit was configured for continuous operation. EUT was tested in three orthogonal orientations (XY, YZ, and ZX planes). EUT = XY EUT = YZ EUT = ZX Refers to the following block diagram and data table for test data. ntenna factor, cable loss, and preamplifier gain were compensated for in the receiver. factor of db/decade applies to measurements made at a closer distance than the limit distance before comparing to the limits. Page 25 of 33
EMI Receiver Preamplifier ntenna EUT DC Power Supply 3m or m Separation ntenna Polarization Frequency (MHz) Channel No. Power Setting (Level) EUT Orientation Measured Data (dbuv/m) Duty Cycle Correction Factor (db) Corrected Data Limit (dbuv/m) Margin (db) ntenna Height (cm) Turtable Degree Detector H 25 3 XY 00.94 - - - - 232.7 5.9 VE H 25 3 XY 03.04 - - - - 232.7 5.9 PK H 23 3 XY 39.83 5 34.83 54 9.7 232.7 5.9 VE H 23 3 XY.76 0.76 74 23.24 232.7 5.9 PK H 4 3 XY 46.28 5 4.28 54 2.72 233. 6. VE H 4 3 XY 56.45 0 56.45 74 7.55 233. 6. H 25 (NF) 3 XY 46.84 5 4.84 54 2.6 - - VE H 25 (NF) 3 XY 56.9 0 56.9 74 7.09 - - PK H 92 (NF)* 3 XY 34.93 5 29.93 54 24.07 - - VE H 92 (NF)* 3 XY 49.22 0 49.22 74 24.78 - - PK H 24 8 3 XY 00.46 - - - - 2.3 7. VE H 24 8 3 XY 02.62 - - - - 2.3 7. H 48 8 3 XY 42.34 5 37.34 54 6.66 229.9 27.9 VE H 48 8 3 XY 53. 0 53. 74. 229.9 27.9 PK H 73 8 3 XY 42. 5 37. 54 6. 2.8 26.5 VE H 73 8 3 XY 54.85 0 54.85 74 9.5 2.8 26.5 PK H 20 (NF) 8 3 XY.8 5 35.8 54 8.9 - - VE H 20 (NF) 8 3 XY 53.77 0 53.77 74.23 - - PK H 95 (NF)* 8 3 XY 33. 5 28. 54 25.0 - - VE H 95 (NF)* 8 3 XY 46. 0 46. 74 27. - - PK H 24 26 252 XY 9.67 - - - - 224.7 9.7 VE H 24 26 252 XY 94.00 - - - - 224.7 9.7 PK H 2483.5 26 252 XY 58.57 5 53.57 54 0.43 224.7 9.7 VE H 2483.5 26 252 XY 7.72 0 7.72 74 2.28 224.7 9.7 PK H 2483.5 25 3 XY 42.79 5 37.79 54 6.2 26.0 9.5 VE H 2483.5 25 3 XY 54.93 0 54.93 74 9.07 26.0 9.5 PK H 49 26 252 XY 3.6 5 26.6 54 27.84 2.8.0 VE H 49 26 252 XY 44. 0 44. 74 29. 2.8.0 PK H 74 26 252 XY 33.84 5 28.84 54 25.6 25.8 5.8 VE H 74 26 252 XY 46.8 0 46.8 74 27.82 25.8 5.8 PK H (NF) 26 252 XY 36.52 5 3.52 54 22.48 - - VE H (NF) 26 252 XY 48.68 0 48.68 74 25.32 - - PK H 98 (NF)* 26 252 XY 34.08 5 29.08 54 24.92 - - VE H 98 (NF)* 26 252 XY 47.33 0 47.33 74 26.67 - - PK H 223 (NF)* 26 252 XY 34.96 5 29.96 54 24.04 - - VE H 223 (NF)* 26 252 XY 47.5 0 47.5 74 26.49 - - PK NF: Noise Floor Tested: March 2-3, 0 *: Tested at m Tested by: Grace Lin Page 26 of 33
Duty Cycle Calculation Worst-case pulse widths: 4.086538 ms, 2.79487 ms Worst-case numbers of pulses per 00ms: 0, 7 Duty Cycle Correction Factor: log ((0x4.086538+7x2.79487)/00) = -5.074 Ref dbµv tt 0 db RBW 00 khz * VBW 0 khz SWT 5 ms Marker [T ] 0.78 dbµv 4.086538 ms P TRG TRG dbµv 0 0-0 Center 2.425 GHz 0 µs/ Date: 24.FEB.0 4:35:5 Page 27 of 33
Duty Cycle Calculation (Continued) Ref dbµv tt 0 db RBW 00 khz * VBW 0 khz SWT 5 ms Marker [T ] 0.88 dbµv 2.79487 ms P TRG TRG dbµv 0 0-0 Center 2.425 GHz 0 µs/ Date: 24.FEB.0 4:28:07 Page 28 of 33
Duty Cycle Calculation (Continued) Ref dbµv * tt 0 db RBW 00 khz * VBW 0 khz SWT 00 ms P TRG TRG dbµv 0 0-0 Center 2.425 GHz 0 ms/ Date: 24.FEB.0 4:7:07 Page 29 of 33
3.9 Receiver Radiated Emissions Performance Criterion: Receiver radiated emissions must meet the requirements of Table of IC RSS-Gen. Receivers operating above 9 MHz or below MHz are exempt from complying with the technical provisions of FCC Part 5 Subpart B. Test Results: Complies Test Details: Radiated emission was performed from MHz to the fifth harmonics of the carrier. For each scan of radiated emission measurement, the procedures for maximizing emissions were followed. The EUT was rotated and antenna height was varied between m and 4 m in order to maximize the emission. Measurements in both horizontal and vertical polarities were made and the data was recorded. ll radiated emission measurements, up to 8 GHz, were performed at 3-meter distance between an antenna and the EUT. For the measurement of radiated emission at the frequency range -000MHz, measurement was made by using a quasi-peak detector with a khz bandwidth. For the frequency range above GHz, measurement was made using an average detector with a MHz bandwidth. EUT was tested in three orthogonal orientations (XY, YZ, and ZX planes). EUT = XY EUT = YZ EUT = ZX Refers to the following block diagram, data table, and receiver screen captures for test data. ntenna factor, cable loss, and preamplifier gain were compensated for in the receiver. EMI Receiver Preamplifier ntenna EUT DC Power Supply 3m Separation Page of 33
Receiver Radiated Emission: ntenna Polarization Frequency (MHz) EUT Orientation Measured Data (dbuv/m) Limit (dbuv/m) Margin (db) ntenna Height (cm) Turtable Degree V 44 ZX 28.32 43.5 5.8 00 44.9 V 68 XY 26.27 43.5 7.23 00 28.5 V 92 XY 27.0 43.5 6.49 00 3.2 V 26 YZ 27.72 43.5 5.78 00 66.7 V 288 XY 24.63 46 2.37 00 359.9 V 32 ZX 29.37 46 6.63 00 332. Tested by: Grace Lin Tested: March 3, 0 Page 3 of 33
3.0 Receiver Power Line Conducted Emissions Performance Criterion: power line conducted emissions shall not exceed the limits specified in FCC 5.07 and Table 2 of IC RSS-Gen. Test Results: Complies. Test Details: power line conducted emissions were performed from khz to MHz and measured with a resolution bandwidth of 9 khz. EUT was set in the receiving mode. Refers to the following screen captures (using a peak detector) and block diagram. EMI Receiver LISN EUT Line : dbµv 00 TD SCN tt 0 db RBW 9 khz MT 00 ms PREMP OFF MHz 0 MHz MXH TDF QP VE 6DB 0 0 khz MHz Date: 3.MR.0 0:52:33 Page 32 of 33
Line 2: TD SCN tt 0 db RBW 9 khz MT 00 µs PREMP OFF dbµv 00 MHz 0 MHz MXH TDF QP VE 6DB 0 0 khz MHz Date: 3.MR.0 0:57:26 Page 33 of 33