AN603 Si4822/26/27/40/44-DEMO B OARD TEST P ROCEDURE 1. Introduction The purpose of this document is to describe the test procedures used in Silicon Laboratories for the Si4822/26/27/ 40/44-DEMO AM/FM/SW tuner board. It is also intended to enable customers to exactly replicate Silicon Laboratories’ test environment so that variances in customers’ and Silicon Laboratories’ measured results can be accurately compared. This document covers FM, AM, and SW tests for the Si4822/40 and Si4826/27/44 receiver. The Si4822/26/27/40/44-DEMO board provides a platform to test and operate the Si4822/26/27/40/44 tuner. Refer to the Si4822/26/27/40/44-DEMO Board User’s Guide for the operation details of the demo board. 2. FM Tuner Testing Setup 2.1. FM Common Setup FM tuner standard configuration: Tune exactly to 98.0 MHz. See the Si4822/26/27/40/44-DEMO Board User’s Guide for details. Set volume to maximum unless otherwise specified. Ensure cable length between the generator and antenna input is as short as possible. 5660/JHQHUDWRU 6L'HPR%RDUG 73 $XGLRRXWSXWWHVWSRLQW - +HDGSKRQH *1' 5RXW &+ &+ *1' )0DQWHQQD /RXW 56DXGLR DQDO\]HU $0)HUULWH$QWHQQD - /RXW 5RXW Figure 1. FM Tuner Setup with One Generator Rev. 0.3 3/13 Copyright © 2013 by Silicon Laboratories AN603 AN603 5660/JHQHUDWRU 3RZHU &RPELQHU 5660/JHQHUDWRU 6L'HPR%RDUG 73 $XGLRRXWSXWWHVWSRLQW - +HDGSKRQH *1' 5RXW &+ &+ *1' )0DQWHQQD /RXW 56DXGLR DQDO\]HU $0)HUULWH$QWHQQD - /RXW 5RXW Figure 2. FM Tuner Setup with Two Generators FM Tuner Test Equipment List: Rohde & Schwarz UPL Audio Analyzer &Schwarz SML01 Signal Generator Mini-Circuits Power Combiner Rohde 2.2. FM Tuner Testing Considerations Several issues must be considered to make accurate measurements. First, the power combiner and cable losses must be calibrated and factored into each measurement. The loss for the Mini-Circuit power combiner is approximately 6 dB. Second, most signal generators display the voltage generated at the input of the device under test (DUT) assuming an input resistance of 50 Ω. For example, if the signal generator displays VL = 1 μV (0 dBμV), the generator source voltage VS is 2 μV (6 dBμV). The load voltage VL is generated from the source voltage VS by the voltage divider created by the 50 Ω generator source resistance RS and the 50 Ω load resistance RL. This distinction is important only for sensitivity and IP3, which are specified in μV EMF*, where EMF refers to the source voltage VS. Measurements such as AM suppression, selectivity, and spurious response are relative and may be referenced using VS or VL. To summarize, the generator displays the voltage at the input of the DUT. Input impedance for the Si4822/26/27/40/44 FM tuner is high, so to convert the value displayed on the signal generator to EMF, double the voltage (add 6 dB). *Note: EMF = Electro Motive Force 2 Rev. 0.3 AN603 3. FM Testing Procedure 3.1. FM Tuning Frequency Range 3.1.1. Description The test checks the lowest possible tuning frequency and the highest possible tuning frequency of the Si4822/26/ 27/40/44 FM receiver. 3.1.2. Conditions / Procedure 1. Connect test equipment as shown in Figure 1. 2. Configure the tuner in standard configuration. 3. Configure the audio analyzer: a. Select Analyze. b. Set Function = THD+N / SINAD. i. Set Measurement Mode = SINAD. ii. Set Unit = dB. iii. Set Filter = A-weighting. iv. Set Frequency Limit Low = 300 Hz. v. Set Frequency Limit High = 15000 Hz. 4. Configure generator: a. Set RF level = 0 dBμV. b. Select FM Modulation. i. Set FM Deviation = 22.5 kHz. ii. Set Source = LFGEN. iii. Set LFGEN Frequency = 1 kHz. c. Enable modulation. d. Enable carrier. 5. Slide band switch or press push button to select FM1 band for testing. 6. Turn tuning wheel to the lowest possible position. 7. Adjust signal generator RF (by 10 kHz step), until the measured SINAD reaches maximum level. Record this RF frequency as the lowest tuning frequency Fmin. 8. Repeat for highest tuning frequency point Fmax. 9. Repeat for other FM band testing. Rev. 0.3 3 AN603 3.1.3. Pass Criteria For the band property with MCU setting, the tuning frequency range is the range which the user set (for setting the value of BAND TOP and BAND BOTTOM in the SETTING MENU, see the Si4822/26/27/40/44-DEMO Board User’s Guide for details). For the band property with tuner default, the pass criteria are as follows: Table 1. FM Frequency Range Parameter Min Max Unit FM1 frequency range 87 108 MHz FM2 frequency range 86.5 109 MHz FM3 frequency range 87.3 108.25 MHz FM4 frequency range 76 90 MHz FM5 frequency range 64 87 MHz 3.2. FM Sensitivity 3.2.1. Description Determine input level in dBμVemf to result in 26 dB SINAD in mono RX mode. 3.2.2. Conditions / Procedure 1. Connect test equipment as shown in Figure 1. 2. Configure the tuner in standard configuration. 3. Configure the audio analyzer: a. Select Analyze. b. Set Function = THD+N / SINAD. i. Set Measurement Mode = SINAD. ii. Set Unit = dB. iii. Set Filter = A-weighting. iv. Set Frequency Limit Low = 300 Hz. v. Set Frequency Limit High = 15000 Hz. 4. Configure generator: a. Set carrier frequency = 98 MHz. b. Select FM Modulation. i. Set FM Deviation = 22.5 kHz. ii. Set Source = LFGEN. iii. Set LFGEN Frequency = 1 kHz. c. Enable modulation. d. Enable carrier. 5. Adjust generator RF level, VRF0, until audio analyzer SINAD = 26 dB ±1 dB. 6. Sensitivity (dBμVemf) = VRF0. 3.2.3. Pass Criteria FM sensitivity should be below 10 dBµVemf. 4 Rev. 0.3 AN603 3.3. FM Image Rejection 3.3.1. Description The test measures the FM image rejection of the tuner. 3.3.2. Conditions / Procedure 1. Connect test equipment as shown in Figure 1. 2. Configure the tuner in standard configuration. 3. Configure the audio analyzer: a. Select Analyze. b. Set Function = THD+N / SINAD. i. Set Measurement Mode = SINAD. ii. Set Unit = dB. iii. Set Filter = A-weighting. iv. Set Frequency Limit Low = 300 Hz. v. Set Frequency Limit High = 15000 Hz. 4. Configure generator: a. Set carrier frequency = 98 MHz. b. Select FM Modulation. i. Set FM Deviation = 22.5 kHz. ii. Set Source = LFGEN. iii. Set LFGEN Frequency = 1 kHz. c. Enable modulation. d. Enable carrier. 5. Adjust generator RF level, VRF1, until audio analyzer SINAD = 26 dB ±1 dB. 6. Record the RF level = VRF1. 7. Change generator carrier frequency to 97.744 MHz 8. Adjust generator RF level*, VRF2, until audio analyzer SINAD = 26 dB ±1 dB. 9. Image rejection (dB) = VRF2 – VRF1. Note: Maximum RF level setting for the R&S SML01 signal generator is 120 dBμV. You cannot increase the RF level beyond this value. If you adjust generator RF level from VRF1 to 120 dBμV, the audio analyzer SINAD still can not get to the SINAD = 26 dB ±1 dB, your image rejection will be better than 120 dBμV – VRF1. 3.3.3. Pass Criteria FM Image rejection should be more than 40 dB. Rev. 0.3 5 AN603 3.4. Selectivity –3 dB 3.4.1. Description The test measures the FM frequency offset range to the tuned station when output audio level drops by 3 dB. 3.4.2. Conditions / Procedure 1. Connect test equipment as shown in Figure 1. 2. Configure the tuner in standard configuration. 3. Configure the audio analyzer: a. Select Analyze. b. Set Function = THD+N / SINAD. i. Set Measurement Mode = SINAD. ii. Set Unit = dB. iii. Set Filter = A-weighting. iv. Set Frequency Limit Low = 300 Hz. v. Set Frequency Limit High = 15000 Hz. 4. Configure generator: a. Set carrier frequency = 98 MHz. b. Set RF level = 40 dBμV. c. Select FM Modulation. i. Set FM Deviation = 22.5 kHz. ii. Set Source = LFGEN. iii. Set LFGEN Frequency = 1 kHz. d. Enable modulation. e. Enable carrier. 5. Record the audio output level (dBV) = VAUDIO0 6. Raise the signal generator RF frequency Fh, until audio output level VAUDIO1 = VAUDIO0-3. 7. Lower the signal generator RF frequency Fl, until audio output level VAUDIO1 = VAUDIO0-3. 8. Selectivity –3 dB (kHz) = Fh - Fl. 3.4.3. Pass Criteria FM Selectivity for –3 dB audio level difference should be between 40 kHz and 100 kHz. 6 Rev. 0.3 AN603 3.5. FM Limiting –3 dB 3.5.1. Description The test measures the RF input level when audio output level drops by 3 dB from the standard level. 3.5.2. Conditions / Procedure 1. Connect test equipment as shown in Figure 1. 2. Configure the tuner in standard configuration. 3. Configure the audio analyzer: a. Select Analyze. b. Set Function = THD+N / SINAD. i. Set Measurement Mode = SINAD. ii. Set Unit = dB. iii. Set Filter = A-weighting. iv. Set Frequency Limit Low = 300 Hz. v. Set Frequency Limit High = 15000 Hz. 4. Configure generator: a. Set carrier frequency = 98 MHz. b. Set RF level = 94 dBμV. c. Select FM Modulation. i. Set FM Deviation = 22.5 kHz. ii. Set Source = LFGEN. iii. Set LFGEN Frequency = 1 kHz. d. Enable modulation. e. Enable carrier. 5. Record the audio output level (dBV) = VAUDIO0 6. Adjust the signal generator RF level VRF0, until audio output level VAUDIO1 = VAUDIO0-3. 7. FM limiting –3 dB (dBμV) = VRF0. 3.5.3. Pass Criteria FM Limiting sensitivity for –3 dB audio level drop should be no more than 3 dBμV. Rev. 0.3 7 AN603 3.6. FM Audio Frequency Response 3.6.1. Description Audio frequency response is the measure of linearity of output voltage vs. modulation frequency across the audio band. 3.6.2. Conditions / Procedure 1. Connect test equipment as shown in Figure 1. 2. Configure the tuner in standard configuration. 3. Configure the audio analyzer: a. Select Analyze. b. Set Function = RMS Select. i. Set Bandwidth = BP 3%. ii. Set Units = dBV. iii. Set Frequency Mode = FIX: 1 kHz. 4. Configure generator: a. Set carrier frequency = 98 MHz. b. Set RF level = 60 dBμV. c. Select Stereo Modulation. i. Set FM Deviation = 10.5 kHz. ii. Set L = R. iii. Set Source = LFGEN. iv. Set LFGEN Frequency = 1 kHz. v. Set Pre-emphasis = 75 μs. vi. Set Pilot = ON. vii. Set Pilot Deviation = 6.75 kHz. d. Enable modulation. e. Enable carrier. 5. Audio 1 kHz level (dBV) = V1 kHz. 6. Configure audio analyzer frequency mode through RMS Select Function.* Set Frequency Mode = FIX: 30 Hz. 7. Configure generator LFGEN Frequency = 30 Hz. 8. Audio 30 Hz level (dBV) = V30 Hz. 9. Configure audio analyzer frequency mode through RMS Select Function. Set Frequency Mode = FIX: 15 kHz. 10. Configure generator LFGEN Frequency = 15 kHz. 11. Audio 15 kHz level (dBV) = V15 kHz. 12. Audio frequency response (dB) equals the greater magnitude of (V30 Hz – V1 kHz) and (V15 kHz – V1 kHz). Note: If you test the band with de-emphasis 50 μs, you should set pre-emphasis = 50 μs. 3.6.3. Pass Criteria The greater magnitude of (V30 Hz – V1 kHz) and (V15 kHz – V1 kHz) should be no more than 3 dB. 8 Rev. 0.3 AN603 3.7. FM Stereo Separation 3.7.1. Description The test quantifies leakage or crosstalk from one channel to another in stereo mode. 3.7.2. Conditions / Procedure 1. Connect test equipment as shown in Figure 1. 2. Configure the tuner in standard configuration. 3. Configure the audio analyzer: a. Select Analyze. b. Set Function = RMS Select. i. Set Bandwidth = BP 3%. ii. Set Units = dBV. iii. Set Frequency Mode = FIX: 1 kHz. 4. Configure generator: a. Set carrier frequency = 98 MHz. b. Set RF level = 60 dBμV. c. Select Stereo Modulation. i. Set FM Deviation = 67.5 kHz. ii. Set L = 1, R = 0. iii. Set Source = LFGEN. iv. Set LFGEN Frequency = 1 kHz. v. Set Pre-emphasis = 75 μs. vi. Set Pilot = ON. vii. Set Pilot Deviation = 6.75 kHz. d. Enable modulation. e. Enable carrier. 5. Left channel audio level (dBV) = VAUDIOL1. 6. Right channel audio level (dBV) = VAUDIOR1. 7. Record the Audio Stereo Separation1 (dB) = abs (VAUDIOL1 – VAUDIOR1). 8. Configure generator: a. Set carrier frequency = 98 MHz. b. Set RF level = 60 dBμV. c. Select Stereo Modulation. i. Set FM Deviation = 67.5 kHz. ii. Set L = 0, R = 1. iii. Set Source = LFGEN. iv. Set LFGEN Frequency = 1 kHz. v. Set Pre-emphasis = 75 μs. vi. Set Pilot = ON. vii. Set Pilot Deviation = 6.75 kHz. d. Enable modulation. e. Enable carrier. 9. Left channel audio level (dBV) = VAUDIOL2. 10. Right channel audio level (dBV) = VAUDIOR2. Rev. 0.3 9 AN603 11. Record the Audio Stereo Separation2 (dB) = abs (VAUDIOL2 – VAUDIOR2). 12. Audio Stereo Separation (dB) = minimum (Audio Stereo Separation1, Audio Stereo Separation2) 3.7.3. Pass Criteria FM Stereo separation should be greater than 32 dB. 3.8. FM Audio L/R Imbalance 3.8.1. Description The test measures the gain / level imbalance between L and R channels in stereo mode. 3.8.2. Conditions / Procedure 1. Connect test equipment as shown in Figure 1. 2. Configure the tuner in standard configuration. 3. Configure the audio analyzer: a. Select Analyze. b. Set Function = RMS Select. i. Set Bandwidth = BP 3%. ii. Set Units = dBV. iii. Set Frequency Mode = FIX: 1 kHz. 4. Configure generator: a. Set carrier frequency = 98 MHz. b. Set RF level = 60 dBμV. c. Select FM Modulation. i. Set FM Deviation = 75 kHz. ii. Set RF level = 60 dBμV. iii. Set Source = LFGEN. iv. Set LFGEN Frequency = 1 kHz. d. Enable modulation. e. Enable carrier. 5. Left channel audio level (dBV) = VAUDIOL. 6. Right channel audio level (dBV) = VAUDIOR. 7. Audio L/R imbalance (dB) = abs (VAUDIOL – VAUDIOR). 3.8.3. Pass Criteria FM audio L/R imbalance should be no more than 1 dB. 10 Rev. 0.3 AN603 3.9. FM Tuning Indicator Sensitivity 3.9.1. Description The test measures the needed RF input level to turn on the tuning indicator. 3.9.2. Conditions / Procedure 1. Connect test equipment as shown in Figure 1. 2. Configure the tuner in standard configuration. 3. Configure the audio analyzer: a. Select Analyze. b. Set Function = THD+N / SINAD. i. Set Measurement Mode = SINAD. ii. Set Unit = dB. iii. Set Filter = A-weighting. iv. Set Frequency Limit Low = 300 Hz. v. Set Frequency Limit High = 15000 Hz. 4. Configure generator: a. Set carrier frequency = 98 MHz. b. Set RF level = 60 dBμV. c. Select FM Modulation. i. Set FM Deviation = 22.5 kHz. ii. Set Source = LFGEN. iii. Set LFGEN Frequency = 1 kHz. d. Enable modulation. e. Enable carrier. 5. Decrease signal generator RF level, until the tuning indicator turns off. 6. Then increase signal generator RF level VRF0 from low to high until tuning indicator turns on. 7. FM tuning indicator sensitivity = VRF0. 3.9.3. Pass Criteria FM tuning indicator sensitivity should be no more than 15 dBμV. Rev. 0.3 11 AN603 3.10. FM Stereo Indicator Sensitivity 3.10.1. Description The test measures the needed RF input level to turn on the stereo indicator. 3.10.2. Conditions / Procedure 1. Connect test equipment as shown in Figure 1. 2. Configure the tuner in standard configuration. 3. Configure the audio analyzer: a. Select Analyze. b. Set Function = THD+N / SINAD. i. Set Measurement Mode = SINAD. ii. Set Unit = dB. iii. Set Filter = A-weighting. iv. Set Frequency Limit Low = 300 Hz. v. Set Frequency Limit High = 15000 Hz. 4. Configure generator: a. Set carrier frequency = 98 MHz. b. Set RF level = 60 dBμV. c. Select Stereo Modulation. i. Set FM Deviation = 22.5 kHz. ii. Set L = 1, R = 1. iii. Set Source = LFGEN. iv. Set LFGEN Frequency = 1 kHz. v. Set Pre-emphasis = 75 μs. vi. Set Pilot = ON. vii. Set Pilot Deviation = 6.75 kHz. d. Enable modulation. e. Enable carrier. 5. Decrease signal generator RF level, until the stereo indicator turns off. 6. Then increase signal generator RF level VRF0 from low to high until stereo indicator turns on. 7. FM stereo indicator sensitivity = VRF0. 3.10.3. Pass Criteria The FM stereo indicator sensitivity is determined by the value of BLEND MONO, BLEND STEREO, and BLEND SEPARATION. For the band property with MCU setting, the FM stereo indicator sensitivity is the value which the user set (for setting the value of BLEND MONO, BLEND STEREO, and BLEND SEPARATION in the SETTING MENU, see Si4840/44-DEMO Board User’s Guide for details), the error is ± 2 dBμV. For the band property with tuner default, the pass criteria are as follows: FM stereo indicator sensitivity should be 18~22 dBμV for bands with FM stereo indicator threshold of 6 dB separation at 20 dBμV RF input. FM stereo indicator sensitivity should be 26~30 dBμV for bands with FM stereo indicator threshold of 12 dB separation at 28 dBμV RF input. 12 Rev. 0.3 AN603 3.11. FM Mono Distortion 3.11.1. Description The test measures THD in FM Mono mode with a fixed, moderate input signal strength. 3.11.2. Conditions / Procedure 1. Connect test equipment as shown in Figure 1. 2. Configure the tuner in standard configuration. 3. Configure the audio analyzer: a. Select Analyze. b. Set Function = THD. i. Set Measurement Mode = All di (all harmonics). ii. Select Unit = %. 4. Configure generator: a. Set carrier frequency = 98 MHz. b. Select FM Modulation. i. Set FM Deviation = 75 kHz. ii. Set RF Level = 60 dBμV. iii. Set Source = LFGEN. iv. Set LFGEN Frequency = 1 kHz. c. Enable modulation. d. Enable carrier. 5. Adjust volume control wheel to get audio output level RMS = –20 dBV. 6. Record THD (%). 3.11.3. Pass Criteria FM Mono distortion should be no more than 0.5%. Rev. 0.3 13 AN603 3.12. FM Mono SNR 3.12.1. Description The test measures Signal to Noise ratio in FM mono mode at a fixed, moderate input signal strength. 3.12.2. Conditions / Procedure 1. Connect test equipment as shown in Figure 1. 2. Configure the tuner in standard configuration. 3. Configure the audio analyzer: a. Select Analyze. b. Set Function = THD+N / SINAD. i. Set Measurement Mode = Noise. ii. Set Unit = dB. iii. Set Filter = A-weighting. iv. Set Frequency Limit Low = 300 Hz. v. Set Frequency Limit High = 15000 Hz. 4. Configure generator: a. Set carrier frequency = 98 MHz. b. Set RF level = 60 dBμV. c. Select FM Modulation. i. Set FM Deviation = 22.5 kHz. ii. Set Source = LFGEN. iii. Set LFGEN Frequency = 1 kHz. d. Enable modulation. e. Enable carrier. 5. Record SNR (dB) = Noise (dB). 3.12.3. Pass Criteria FM SNR should be more than 55 dB. 14 Rev. 0.3 AN603 3.13. FM Radio AM Suppression 3.13.1. Description The test quantifies undesired AM suppression by measuring the difference at the audio output between an FM and AM modulated input signals. 3.13.2. Conditions / Procedure 1. Connect test equipment as shown in Figure 1. 2. Configure the tuner in standard configuration. 3. Configure the audio analyzer: a. Select Analyze. b. Set Function = RMS Select. i. Set Bandwidth = BP 3%. ii. Set Units = dBV. iii. Set Frequency Mode = FIX: 1 kHz. 4. Configure generator: a. Set carrier frequency = 98 MHz. b. Set RF level = 60 dBμV. c. Select FM Modulation. i. Set FM Deviation = 22.5 kHz. ii. Set Source = LFGEN. iii. Set LFGEN Frequency = 1 kHz. d. Enable modulation. e. Enable carrier. 5. Record the audio level, VAUDIO0. 6. Turn off generator FM modulation. 7. Configure generator: a. Set carrier frequency = 98 MHz. b. Set RF level = 60 dBμV. c. Select AM Modulation. i. Set Depth = 30%. ii. Set Source = LFGEN. iii. Set LFGEN Frequency = 1 kHz. d. Enable modulation. e. Enable carrier. 8. Record the audio level, VAUDIO1. 9. AM Suppression (dB) = VAUDIO0 – VAUDIO1 3.13.3. Pass Criteria: FM radio AM suppression should be more than 40 dB. Rev. 0.3 15 AN603 3.14. FM Audio Output Voltage 3.14.1. Description The test measures FM Audio Volume Level at an RF Level of 60 dBμVemf. 3.14.2. Conditions / Procedure 1. Connect test equipment as shown in Figure 1. 2. Configure the tuner in standard configuration. 3. Configure the audio analyzer: a. Select Analyze. b. Set Function = THD+N / SINAD. i. Set Measurement Mode = SINAD. ii. Set Unit = dB. iii. Set Filter = A-weighting. iv. Set Frequency Limit Low = 300 Hz. v. Set Frequency Limit High = 15000 Hz. 4. Configure generator: a. Set carrier frequency = 98 MHz. b. Set RF level = 60 dBμV. c. Select FM Modulation. i. Set FM Deviation = 22.5 kHz. ii. Set Source = LFGEN. iii. Set LFGEN Frequency = 1 kHz. d. Enable modulation. e. Enable carrier. 5. Test the audio voltage at FM tuner audio output pin LOUT or ROUT. 3.14.3. Pass Criteria FM audio output voltage level should range from 72 to 90 mVrms. 16 Rev. 0.3 AN603 3.15. FM Adjacent Channel Selectivity (±200 kHz) 3.15.1. Description The test quantifies receiver vulnerability to adjacent-channel signals at offset ±200 kHz from desired signal. This is a data sheet specification, two signal generators and one power combiner are used in the test. 3.15.2. Conditions / Procedure 1. Connect test equipment as shown in Figure 2. 2. Configure the tuner in standard configuration. 3. Configure the audio analyzer: a. Select Analyze. b. Set Function = RMS Select. i. Set Bandwidth = BP 3%. ii. Set Units = dBV. iii. Set Frequency Mode = FIX: 1 kHz. 4. Configure generator #1: a. Set carrier frequency = 98 MHz. b. Set RF level VRF0 = 40 dBμV. c. Select FM Modulation. i. Set FM Deviation = 22.5 kHz. ii. Set Source = LFGEN. iii. Set LFGEN Frequency = 1 kHz. d. Enable modulation. e. Enable carrier. 5. Record the audio level, VAUDIO0. 6. Disable generator modulation. 7. Configure generator #2: a. Set carrier frequency = 98.2 MHz. (Adjacent channel +200 k) b. Set RF level = 60 dBμV. c. Select FM Modulation. i. Set FM Deviation = 22.5 kHz. ii. Set Source = LFGEN. iii. Set LFGEN Frequency = 1 kHz. d. Enable modulation. e. Enable carrier. 8. Adjust generator #2 RF level*, VRF1, until the audio level, VAUDIO1 = VAUDIO0 – 30 dB. 9. Selectivity Adjacent Channel +200 k (dB) = VRF1 – VRF0. 10. Configure generator #2: a. Set carrier frequency = 97.8 MHz. (Adjacent channel –200 k) b. Set RF Level = 60 dBμV. c. Select FM Modulation. i. Set FM Deviation = 22.5 kHz. ii. Set Source = LFGEN. iii. Set LFGEN Frequency = 1 kHz. d. Enable modulation. Rev. 0.3 17 AN603 e. Enable carrier. 11. Adjust generator #2 RF level*, VRF2, until the audio level, VAUDIO1 = VAUDIO0 – 30 dB. 12. Selectivity Adjacent Channel –200 k (dB) = VRF2 – VRF0. 13. Selectivity Adjacent Channel ±200 k = minimum (VRF1 – VRF0, VRF2 – VRF0) Note: Generator #1 RF level is set to 40 dBμV to be able to get selectivity results greater than 60 dB. This is not a limitation of the FM tuner or the evaluation board. Maximum RF level setting for the R&S SML01 signal generator is 120 dBμV. You cannot increase the RF level beyond this value, so if VRF0 = 60 dBμV, selectivity numbers would be limited to 60 dB. 3.15.3. Pass Criteria FM adjacent channel selectivity should be more than 50 dB. 3.16. FM Alternate Channel Selectivity (±400 kHz) 3.16.1. Description The test quantifies receiver vulnerability to alternate-channel signals at offset ±400 kHz from desired signal. This setting is a data sheet specification, two signal generators and one power combiner are used in the test. 3.16.2. Conditions / Procedure 1. Connect test equipment as shown in Figure 2. 2. Configure the tuner in standard configuration. 3. Configure the audio analyzer: a. Select Analyze. b. Set Function = RMS Select. i. Set Bandwidth = BP 3%. ii. Set Units = dBV. iii. Set Frequency Mode = FIX: 1 kHz. 4. Configure generator #1: a. Set carrier frequency = 98 MHz. b. Set RF level VRF0 = 40 dBμV. c. Select FM Modulation. i. Set FM Deviation = 22.5 kHz. ii. Set Source = LFGEN. iii. Set LFGEN Frequency = 1 kHz. d. Enable modulation. e. Enable carrier. 5. Record the audio level, VAUDIO0. 6. Disable generator modulation. 7. Configure generator #2: a. Set carrier frequency = 98.4 MHz (Alternate Channel +400 k) b. Set RF level = 60 dBμV. c. Select FM Modulation. i. Set FM Deviation = 22.5 kHz. ii. Set Source = LFGEN. iii. Set LFGEN Frequency = 1 kHz. d. Enable modulation. e. Enable carrier. 8. Adjust generator #2 RF level*, VRF1, until the audio level, VAUDIO1 = VAUDIO0 – 30 dB. 18 Rev. 0.3 AN603 9. Selectivity Alternate Channel +400 k (dB) = VRF1 – VRF0. 10. Configure generator #2: a. Set carrier frequency = 97.6 MHz (Alternate Channel –400 k) b. Set RF level = 60 dBμV. c. Select FM Modulation. i. Set FM Deviation = 22.5 kHz. ii. Set Source = LFGEN. iii. Set LFGEN Frequency = 1 kHz. d. Enable modulation. e. Enable carrier. 11. Adjust generator #2 RF level*, VRF2, until the audio level, VAUDIO1 = VAUDIO0 – 30 dB. 12. Selectivity Alternate Channel –400 k (dB) = VRF2 – VRF0. 13. Selectivity Alternate Channel ±400 k = minimum (VRF1 – VRF0, VRF2 – VRF0). Note: Generator #1 RF level is set to 40 dBμV to be able to get selectivity results greater than 60 dB. This is not a limitation of the FM tuner or the evaluation board. Maximum RF level setting for the R&S SML01 signal generator is 120 dBμV. You cannot increase the RF level beyond this value, so if VRF0 = 60 dBμV, selectivity numbers would be limited to 60 dB. 3.16.3. Pass Criteria FM alternate channel selectivity should be more than 60 dB. Rev. 0.3 19 AN603 3.17. FM Stereo Pilot Rejection 3.17.1. Description Stereo pilot rejection is the quality criterion of a tuner that is measured as the ratio of wanted audio frequency voltage to pilot frequency voltage according to the equation: Pilot Rejection = Vaudio0 (1 kHz) + 20 log pilot f – Vaudio0 19 kHz where f is FM frequency deviation and pilot is pilot frequency deviation. 3.17.2. Conditions / Procedure 1. Connect test equipment as shown in Figure 1. 2. Configure the tuner in standard configuration. 3. Configure the audio analyzer: a. Select Analyze. b. Set Function = RMS Select. i. Set Bandwidth = BP 3%. ii. Set Units = dBV. iii. Set Frequency Mode = FIX: 1 kHz. 4. Configure generator: a. Set carrier frequency = 98 MHz. b. Set RF level = 60 dBμV. c. Select Stereo Modulation. i. Set FM Deviation = 67.5 kHz. ii. Set L = 1, R = 1. iii. Set Source = LFGEN. iv. Set LFGEN Frequency = 1 kHz. v. Set Pre-emphasis = 75 μs. vi. Set Pilot = ON. vii. .Set Pilot Deviation = 6.75 kHz. d. Enable modulation. e. Enable carrier. 5. Adjust volume control wheel to get audio output level RMS = –20 dBV. 6. Audio 1 kHz level (dBV) = V1 kHz. 7. Disable 1 kHz tone (by disabling 1 kHz source, not stereo mod) 8. Configure audio analyzer frequency mode = FIX: 19 kHz. 9. Audio 19 kHz level (dBV) = V19 kHz. 10. Pilot Rejection (relative to pilot) (dB) = V1 kHz – V19 kHz + 20*log10 (∆pilot/∆f) = V1 kHz – V19 kHz – 20. 3.17.3. Pass Criteria FM Stereo pilot rejection should be more than 40 dB. 20 Rev. 0.3 AN603 4. AM/SW Tuner Testing Setup 4.1. AM/SW Common Setup AM Tuner Standard Configuration Tune tuner exactly to AM frequency = 1000 kHz. See the Si4822/26/27/40/44-DEMO Board User’s Guide for details. Set RF Level at the antenna input 74 dBμVemf. Set volume set to maximum unless otherwise specified. Cable length between the generator and antenna input should be as short as possible. SW Tuner Standard Configuration Tune tuner exactly to SW frequency = 11.85 MHz. See the Si4822/26/27/40/44-DEMO Board User’s Guide for details. Set RF Level at the antenna input 74 dBμVemf. Set volume to maximum unless otherwise specified. Connect SG to the antenna input through an antenna dummy (10 pF cap in series). The cable length between the generator and antenna input should be as short as possible. 5660/JHQHUDWRU 6L'HPR%RDUG 73 $XGLRRXWSXWWHVWSRLQW - *1' 5RXW +HDGSKRQH /RXW &+ &+ *1' $0)HUULWH$QWHQQD 56DXGLR DQDO\]HU - $0DQWHQQD /RXW 5RXW Figure 3. AM Tuner Setup with One Generator Rev. 0.3 21 AN603 5660/JHQHUDWRU 3RZHU &RPELQHU 5660/JHQHUDWRU $0)HUULWH$QWHQQD - $0DQWHQQD 73 $XGLRRXWSXWWHVWSRLQW - +HDGSKRQH *1' 5RXW &+ &+ *1' 6L'HPR%RDUG /RXW 56DXGLR DQDO\]HU /RXW 5RXW Figure 4. AM Tuner Setup with Two Generators 5660/JHQHUDWRU 6L'HPR%RDUG 73 $XGLRRXWSXWWHVWSRLQW - +HDGSKRQH &+ &+ *1' *1' 5RXW 56DXGLR DQDO\]HU /RXW FP $0)HUULWH$QWHQQD $LUORRSDQWHQQD Figure 5. AM Tuner Radiation Test Setup 22 Rev. 0.3 /RXW 5RXW AN603 5660/JHQHUDWRU 'XPP\ 6:DQWHQQD 6L'HPR%RDUG 5RXW - +HDGSKRQH /RXW &+ &+ *1' $0)HUULWH$QWHQQD 56DXGLR DQDO\]HU - 73 $XGLRRXWSXWWHVWSRLQW *1' /RXW 5RXW Figure 6. SW Tuner Setup with One Generator 5660/JHQHUDWRU 5660/JHQHUDWRU 3RZHU &RPELQHU 6:DQWHQQD 6L'HPR%RDUG - +HDGSKRQH /RXW &+ &+ *1' - 5RXW 56DXGLR DQDO\]HU $0)HUULWH$QWHQQD 'XPP\ 73 $XGLRRXWSXWWHVWSRLQW *1' /RXW 5RXW Figure 7. SW Tuner Setup with Two Generators Rev. 0.3 23 AN603 AM/SW Tuner Test Equipment List: Rohde & Schwarz UPL Audio Analyzer &Schwarz SML01 Signal Generator Mini-Circuits Power Combiner SW Antenna Dummy Rohde Figure 8. SW Antenna Dummy Circuit 4.2. AM/SW Tuner Testing Considerations Several issues must be considered to make accurate measurements. First, the power combiner and cable losses must be calibrated and factored into each measurement. The loss for the Mini-Circuit power combiner is approximately 6 dB. Second, most signal generators display the voltage generated at the input of the device under test (DUT) assuming an input resistance of 50 . For example, if the signal generator displays VL = 1 μV (0 dBμV), the generator source voltage VS is 2 μV (6 dBμV). The load voltage VL is generated from the source voltage VS by the voltage divider created by the 50 generator source resistance RS and the 50 load resistance RL. This distinction is important only for sensitivity, which is specified in μV EMF*, where EMF refers to the source voltage VS. Measurements such as AM suppression, selectivity, and spurious response are relative and may be referenced using VS or VL. To summarize, the generator displays the voltage at the input of the DUT. Input impedance for the Si4822/26/27/40/44 AM/SW tuner is high, so to convert the value displayed on the signal generator to EMF, double the voltage (add 6 dB) For SW testing, connect the SG to the antenna input through an antenna dummy to simulate the characteristics of a normal whip antenna at SW frequency band. 24 Rev. 0.3 AN603 5. AM/SW Testing Procedure 5.1. AM/SW Tuning Frequency Range 5.1.1. Description The test checks the lowest possible tuning frequency and the highest possible tuning frequency of a selected band on the Si4822/26/27/40/44 AM/SW receiver. 5.1.2. Conditions / Procedure 1. Connect test equipment as shown in Figure 3 or Figure 6. 2. Configure the tuner in standard configuration. 3. Configure the audio analyzer: a. Select Analyze. b. Set Function = THD+N / SINAD. i. Set Measurement Mode = SINAD. ii. Set Unit = dB. iii. Set Filter = A-weighting. iv. Set Frequency Limit Low = 300 Hz. v. Set Frequency Limit High = 15000 Hz. 4. Configure Generator: a. Select AM Modulation. i. Set AM Modulation Depth = 30%. ii. Set Source = LFGEN. iii. Set LFGEN Frequency = 1 kHz. iv. Set RF Level = 20 dBμV. b. Enable AM Modulation. c. Enable RF Carrier. 5. Slide band switch or press push button to select AM1/SW1 band for testing. 6. Turn tuning wheel to the lowest possible position. 7. Adjust signal generator RF (by 10 kHz step), until the measured SINAD reaches maximum level. Record this RF frequency as the lowest tuning frequency Fmin. 8. Repeat for highest tuning frequency point Fmax. 9. Repeat for other AM/SW band testing. Rev. 0.3 25 AN603 5.1.3. Pass Criteria For the band property with MCU setting, the tuning frequency range is the range which the user set (for setting the value of BAND TOP and BAND BOTTOM in the SETTING MENU, see the Si4822/26/27/40/44-DEMO Board User’s Guide for details). For the band property with tuner default, the pass criteria are as follows: Table 2. AM Frequency Range Parameter Min Max Unit AM1 frequency range 520 1710 kHz AM2 frequency range 522 1620 kHz AM3 frequency range 504 1665 kHz AM4 frequency range 520 1730 kHz AM5 frequency range 510 1750 kHz Table 3. SW Frequency Range 26 Parameter Min Max Unit SW1 frequency range 5.6 6.4 MHz SW2 frequency range 5.95 6.2 MHz SW3 frequency range 6.8 7.6 MHz SW4 frequency range 7.1 7.6 MHz SW5 frequency range 9.2 10.0 MHz SW6 frequency range 9.2 9.9 MHz SW7 frequency range 11.45 12.25 MHz SW8 frequency range 11.6 12.2 MHz SW9 frequency range 13.4 14.2 MHz SW10 frequency range 13.57 13.87 MHz SW11 frequency range 15.0 15.9 MHz SW12 frequency range 15.1 15.8 MHz SW13 frequency range 17.1 18.0 MHz SW14 frequency range 17.48 17.9 MHz SW15 frequency range 21.2 22.0 MHz SW16 frequency range 21.45 21.85 MHz Rev. 0.3 AN603 5.2. AM/SW Sensitivity 5.2.1. Description Sensitivity is the RF level in dBμVemf at the input of the antenna at which audio SINAD equals 26 dB. 5.2.2. Conditions / Procedure 1. Connect test equipment as shown in Figure 3 or Figure 6. 2. Configure the tuner in standard configuration. 3. Configure the audio analyzer: a. Select Analyze. b. Set Function = THD+N / SINAD. i. Set Measurement Mode = SINAD. ii. Set Unit = dB. iii. Set Filter = A-weighting. iv. Set Frequency Limit Low = 300 Hz. v. Set Frequency Limit High = 15000 Hz. 4. Configure Generator: a. Set Carrier Frequency = 1000 kHz. (11.85 MHz for shortwave) b. Select AM Modulation. i. Set AM Modulation Depth = 30%. ii. Set Source = LFGEN. iii. Set LFGEN Frequency = 1 kHz. c. Enable AM Modulation. d. Enable RF Carrier. 5. Adjust generator RF level VRF0, until audio analyzer SINAD = 26 dB ± 1 dB. 6. Sensitivity (dBμV) = VRF0. 5.2.3. Pass Criteria AM/SW sensitivity should be no more than 33 dBμVemf. Rev. 0.3 27 AN603 5.3. AM Sensitivity – Radiation 5.3.1. Description Sensitivity is the RF level in dBμVemf at the input of the standard AM loop antenna connected to signal generator, when the Demo board output Audio SINAD equals 26 dB. 5.3.2. Conditions / Procedure 1. Connect test equipment as shown in Figure 5. 2. Configure the tuner in standard configuration, and this test must be conducted inside a shielded room. 3. Configure the audio analyzer: a. Select Analyze. b. Set Function = THD+N / SINAD. i. Set Measurement Mode = SINAD. ii. Set Unit = dB. iii. Set Filter = A-weighting. iv. Set Frequency Limit Low = 300 Hz. v. Set Frequency Limit High = 15000 Hz. 4. Configure Generator: a. Set Carrier Frequency = 1000 kHz. b. Select AM Modulation. i. Set AM Modulation Depth = 30%. ii. Set Source = LFGEN. iii. Set LFGEN Frequency = 1 kHz. c. Enable AM Modulation. d. Enable RF Carrier. 5. Adjust generator RF level, VRF0, until audio analyzer SINAD = 26 dB ±1 dB. 6. Sensitivity (dBμV) = VRF0. Note: Tx antenna is the standard AM loop antenna; Rx antenna is the ferrite loop stick antenna mounted on the Si4822/26/27/ 40/44-DEMO board or air loop antenna that can be connected to the demo board. The distance between Tx antenna and Rx antenna is 60 cm, center to center. 5.3.3. Pass Criteria AM radiation sensitivity should be no more than 78 dBμVemf. 28 Rev. 0.3 AN603 5.4. AM/SW Image Rejection 5.4.1. Description The test measures the AM/SW image rejection of the tuner. 5.4.2. Conditions / Procedure 1. Connect test equipment as shown in Figure 3 or Figure 6. 2. Configure the tuner in standard configuration. 3. Configure the audio analyzer: a. Select Analyze. b. Set Function = THD+N / SINAD. i. Set Measurement Mode = SINAD. ii. Set Unit = dB. iii. Set Filter = A-weighting. iv. Set Frequency Limit Low = 300 Hz. v. Set Frequency Limit High = 15000 Hz. 4. Configure generator: a. Set carrier frequency = 1000 kHz. (11.85 MHz for shortwave) b. Select AM Modulation. i. Set AM Modulation Depth = 30%. ii. Set Source = LFGEN. iii. Set LFGEN Frequency = 1 kHz. c. Enable AM Modulation. d. Enable RF Carrier. 5. Adjust generator RF level, VRF1, until audio analyzer SINAD = 26 dB ±1 dB. 6. Record the RF level = VRF1. 7. Change generator carrier frequency to 1090 kHz. (11.76 MHz for shortwave) 8. Adjust generator RF level*, VRF2, until audio analyzer SINAD = 26 dB ±1 dB. 9. Record the RF level = VRF2. 10. Image rejection (dB) = VRF2 – VRF1. Note: Maximum RF level setting for the R&S SML01 signal generator is 120 dBμV. You cannot increase the RF level beyond this value. If you adjust the generator RF level from VRF1 to 120 dBμV, the audio analyzer SINAD still can not get to the SINAD = 26 dB ±1 dB and your image rejection will be better than 120 dBμV – VRF1. 5.4.3. Pass Criteria AM/SW Image rejection should be no less than 60 dB. Rev. 0.3 29 AN603 5.5. AM/SW Selectivity –6 dB 5.5.1. Description The test measures the AM/SW frequency range when audio output level drops by 6 dB. 5.5.2. Conditions / Procedure 1. Connect test equipment as shown in Figure 3 or Figure 6. 2. Configure the tuner in standard configuration. 3. Configure the audio analyzer: a. Select Analyze. b. Set Function = THD+N / SINAD. i. Set Measurement Mode = SINAD. ii. Set Unit = dB. iii. Set Filter = A-weighting. iv. Set Frequency Limit Low = 300 Hz. v. Set Frequency Limit High = 15000 Hz. 4. Configure Generator: a. Set Carrier Frequency = 1000 kHz. (11.85 MHz for shortwave) b. Select AM Modulation. i. Set AM Modulation Depth = 30%. ii. Set Source = LFGEN. iii. Set LFGEN Frequency = 1 kHz. c. Enable AM Modulation. d. Enable RF Carrier. 5. Adjust generator RF level VRF1, until audio analyzer SINAD = 26 dB ±1 dB. 6. Record the audio output level (dBV) = VAUDIO0 7. Raise the signal generator RF frequency Fh, until audio output level VAUDIO1 = VAUDIO0-6. 8. Lower the signal generator RF frequency Fl, until audio output level VAUDIO1 = VAUDIO0-6. 9. Selectivity –6 dB (kHz) = Fh – Fl. 5.5.3. Pass Criteria AM/SW selectivity –6 dB should be no more than 35 kHz. 30 Rev. 0.3 AN603 5.6. AM/SW Adjacent Channel Selectivity 5.6.1. Description The test measures AM/SW receiver susceptibility to blockers at adjacent channel (±10 kHz or ±9 kHz). Two signal generators and one power combiner are used in the test. 5.6.2. Conditions / Procedure 1. Connect test equipment as shown in Figure 4 or Figure 7. 2. Configure the tuner in standard configuration. 3. Configure the audio analyzer: a. Select Analyze. b. Set Function = RMS Select. i. Set Bandwidth = BP 3%. ii. Set Units = dBV. iii. Set Frequency Mode = FIX: 1 kHz. 4. Configure generator #1: a. Set carrier frequency = 1000 kHz. (11.85 MHz for shortwave) b. Set RF level VRF0 = 40 dBμV.1 c. Select AM Modulation. i. Set AM Modulation Depth = 30%. ii. Set source = LFGEN. iii. Set LFGEN Frequency = 1 kHz. d. Enable AM modulation. e. Enable RF carrier. 5. Record the audio level, VAUDIO0. 6. Disable generator modulation. 7. Configure generator #2: a. Set carrier frequency = 1010 kHz (Adjacent Channel +10 k)2,3,4 b. Set RF level = 50 dBμV. c. Select AM Modulation. i. Set AM Modulation Depth = 30%. ii. Set Source = LFGEN. iii. Set LFGEN Frequency = 1 kHz. d. Enable AM Modulation. e. Enable RF Carrier. 8. Adjust generator #2 RF level*, VRF1, until the audio level, VAUDIO1 = VAUDIO0 – 30 dB. 9. Selectivity Adjacent Channel +10 k (dB) = VRF1 – VRF0. 10. Configure generator #2: a. Set carrier frequency = 990 kHz (Adjacent Channel –10 k)2,3,4 b. Set RF level = 50 dBμV. c. Select AM modulation. i. Set AM Modulation Depth = 30%. ii. Set source = LFGEN. iii. Set LFGEN Frequency = 1 kHz. d. Enable AM modulation. Rev. 0.3 31 AN603 e. Enable RF carrier. 11. Adjust generator #2 RF level*, VRF2, until the audio level, VAUDIO1 = VAUDIO0 – 30 dB. 12. Selectivity Adjacent Channel –10 k (dB) = VRF2 – VRF0. 13. Selectivity Adjacent Channel ±10 k = minimum (VRF1 – VRF0, VRF2 – VRF0) Notes: 1. Generator #1 RF level is set to 40 dBμV to be able to get selectivity results greater than 60 dB. This is not a limitation of the FM tuner or the evaluation board. Maximum RF level setting for the R&S SML01 signal generator is 120 dBμV. You cannot increase the RF level beyond this value, so if VRF0 = 60 dBμV, selectivity numbers would be limited to 60 dB. 2. For shortwave, the adjacent channel is defined as RF ±10 k. 3. For the AM band with 10 kHz channel space, the adjacent channel will be 10 kHz away (RF ±10 k). 4. For the AM band with 9 kHz channel space, the adjacent channel will be 9 kHz away (RF±9 k). 5.6.3. Pass Criteria AM adjacent channel selectivity ±10 kHz (or ±9 kHz) should be no less than 52 dB. SW adjacent channel selectivity ±10 kHz should be no less than 35 dB. 5.7. AM/SW Audio Frequency Response 5.7.1. Description Audio frequency response is the measure of linearity of output voltage vs. modulation frequency across the audio band. 5.7.2. Conditions / Procedure 1. Connect test equipment as shown in Figure 3 or Figure 6. 2. Configure the tuner in standard configuration. 3. Configure the audio analyzer: a. Select Analyze. b. Set Function = RMS Select. i. Set Bandwidth = BP 3%. ii. Set Units = dBV. iii. Set Frequency Mode = FIX: 1 kHz. 4. Configure generator #1: a. Set carrier frequency = 1000 kHz. (11.85 MHz for shortwave) b. Set RF level VRF0 = 74 dBμVemf c. Select AM Modulation. i. Set AM Modulation Depth = 30%. ii. Set source = LFGEN. iii. Set LFGEN Frequency = 1 kHz. d. Enable AM modulation. e. Enable RF carrier. 5. Audio 1 kHz level (dBV) = V 1kHz. 6. Configure audio analyzer frequency mode through RMS Select Function. Set Frequency Mode = FIX: 50 Hz. 7. Configure generator LFGEN Frequency = 50 Hz. 8. Audio 50 Hz level (dBV) = V50Hz. 9. Configure audio analyzer frequency mode through RMS Select Function. Set Frequency Mode = FIX: 3 kHz. 10. Configure generator LFGEN Frequency = 3 kHz. 11. Audio 3 kHz level (dBV) = V3 kHz. 12. Audio frequency response (dB) equals the greater magnitude of (V50Hz – V1kHz) and (V3kHz – V1kHz). 32 Rev. 0.3 AN603 5.7.3. Pass Criteria The greater magnitude of (V50 Hz – V 1kHz) and (V3 kHz – V 1kHz) should be no more than 20 dB. 5.8. AM/SW THD 5.8.1. Description The test measures AM/SW THD at an RF Level of 74 dBμVemf. 5.8.2. Conditions / Procedure 1. Connect test equipment as shown in Figure 3 or Figure 6. 2. Configure the tuner in standard configuration. 3. Configure the audio analyzer: a. Select Analyze. b. Set Function = THD. i. Set Measurement Mode = All di (all harmonics). ii. Set Unit = %. 4. Configure generator: a. Set carrier frequency = 1000 kHz. (11.85 MHz for shortwave) b. Select AM Modulation. i. Set AM Modulation Depth = 30%. ii. Set Source = LFGEN. iii. Set LFGEN Frequency = 1 kHz. c. Set RF Level = 74 dBμVemf. d. Enable AM Modulation. e. Enable RF Carrier. 5. Record THD (%). 5.8.3. Pass Criteria AM/SW THD should be no more than 0.5%. Rev. 0.3 33 AN603 5.9. AM/SW THD at High Modulation Depth 5.9.1. Description The test measures AM/SW THD at 90% modulation depth. 5.9.2. Conditions / Procedure 1. Connect test equipment as shown in Figure 3 or Figure 6. 2. Configure the tuner in standard configuration. 3. Configure the audio analyzer: a. Select Analyze. b. Set Function = THD. i. Set Measurement Mode = All di (all harmonics). ii. Set Unit = %. 4. Configure generator: a. Set carrier frequency = 1000 kHz. (11.85 MHz for shortwave) b. Select AM Modulation. i. Set AM Modulation Depth = 90%. ii. Set Source = LFGEN. iii. Set LFGEN Frequency = 1 kHz. c. Set RF level = 74 dBμVemf. d. Enable AM Modulation. e. Enable RF Carrier. 5. Adjust volume control wheel to get audio output level RMS = –14 dBV. 6. Record THD (%). 5.9.3. Pass Criteria AM/SW THD at high modulation depth should be no more than 0.5%. 34 Rev. 0.3 AN603 5.10. AM/SW Audio Output Voltage 5.10.1. Description The test measures AM/SW Audio Volume Level at an RF Level of 74 dBμVemf. 5.10.2. Conditions / Procedure 1. Connect test equipment as shown in Figure 3 or Figure 6. 2. Configure the tuner in standard configuration. 3. Configure the audio analyzer: a. Select Analyze. b. Set Function = THD+N / SINAD. i. Set Measurement Mode = SINAD. ii. Set Unit = dB. iii. Set Filter = A-weighting. iv. Set Frequency Limit Low = 300 Hz. v. Set Frequency Limit High = 15000 Hz. 4. Configure generator: a. Set carrier frequency = 1000 kHz. (11.85 MHz for shortwave) b. Select AM Modulation. i. Set AM Modulation Depth = 30%. ii. Set Source = LFGEN. iii. Set LFGEN Frequency = 1 kHz. c. Set RF Level = 74 dBμVemf. d. Enable AM Modulation. e. Enable RF Carrier. 5. Test the audio voltage at FM tuner audio output pin Lout or Rout. 5.10.3. Pass Criteria Tuner AM/SW audio output level is between 54 and 67 mVrms. Rev. 0.3 35 AN603 5.11. AM/SW Audio SNR 5.11.1. Description The test measures AM/SW SNR performance with a desired signal with RF Level of 74 dBμVemf. 5.11.2. Conditions / Procedure 1. Connect test equipment as shown in Figure 3 or Figure 6. 2. Configure the tuner in standard configuration. 3. Configure the audio analyzer: a. Select Analyze. b. Set Function = THD+N / SINAD. i. Set Measurement Mode = Noise. ii. Set Unit = dB. iii. Set Filter = A-weighting. iv. Set Frequency Limit Low = 300 Hz v. Set Frequency Limit High = 15000 Hz. 4. Configure generator: a. Set carrier frequency = 1000 kHz. (11.85 MHz for shortwave) b. Select AM Modulation. i. Set AM Modulation Depth = 30%. ii. Set Source = LFGEN. iii. Set LFGEN Frequency = 1 kHz. c. Set RF Level = 74 dBμVemf. d. Enable AM Modulation. e. Enable RF Carrier. 5. Record SNR (dB) = Noise (dB). 5.11.3. Pass Criteria AM/SW SNR should be no less than 52 dB. 36 Rev. 0.3 AN603 5.12. AM/SW SINAD 5.12.1. Description The test measures AM SINAD with the desired signal at an RF Level of 74 dBμVemf. 5.12.2. Conditions / Procedure 1. Connect test equipment as shown in Figure 3 or Figure 6. 2. Configure the tuner in standard configuration. 3. Configure the audio analyzer: a. Select Analyze. b. Set Function = THD+N / SINAD. i. Set Measurement Mode = SINAD. ii. Set Unit = dB. iii. Set Filter = A-weighting. iv. Set Frequency Limit Low = 300 Hz. v. Set Frequency Limit High = 15000 Hz. 4. Configure generator: a. Set carrier frequency = 1000 kHz. (11.85 MHz for shortwave) b. Select AM Modulation. i. Set AM Modulation Depth = 30%. ii. Set Source = LFGEN. iii. Set LFGEN Frequency = 1 kHz. c. Set RF Level = 74 dBμVemf. d. Enable AM Modulation. e. Enable RF Carrier. 5. Record SINAD (dB) = SINAD (dB). 5.12.3. Pass Criteria AM/SW SINAD should be more than 50 dB. Rev. 0.3 37 AN603 5.13. AM/SW SINAD at High Modulation Depth 5.13.1. Description The test measures AM/SW SINAD with the desired signal at an RF Level of 74 dBμVemf and modulation depth of 90%. 5.13.2. Conditions / Procedure 1. Connect test equipment as shown in Figure 3 or Figure 6. 2. Configure the tuner in standard configuration. 3. Configure the audio analyzer: a. Select Analyze. b. Set Function = THD+N / SINAD. i. Set Measurement Mode = SINAD. ii. Set Unit = dB. iii. Set Filter = A-weighting. iv. Set Frequency Limit Low = 300 Hz. v. Set Frequency Limit High = 15000 Hz. 4. Configure generator: a. Set carrier frequency = 1000 kHz. (11.85 MHz for shortwave) b. Select AM Modulation. i. Set AM Modulation Depth = 90%. ii. Set Source = LFGEN. iii. Set LFGEN Frequency = 1 kHz. c. Set RF Level = 74 dBμVemf. d. Enable AM Modulation. e. Enable RF Carrier. 5. Adjust volume control wheel to get audio output level RMS = –14 dBV. 6. Record SINAD (dB) = SINAD (dB). 5.13.3. Pass Criteria AM/SW SINAD at high modulation depth should be more than 40 dB. 38 Rev. 0.3 AN603 5.14. AM/SW Tuning Indicator Sensitivity 5.14.1. Description The AM/SW Tuning Indicator Sensitivity test measures the needed RF input level to turn on the tuning indicator. 5.14.2. Conditions / Procedure 1. Connect test equipment as shown in Figure 3 or Figure 6. 2. Configure the tuner in standard configuration. 3. Configure the audio analyzer: a. Select Analyze. b. Set Function = THD+N / SINAD. i. Set Measurement Mode = SINAD. ii. Set Unit = dB. iii. Set Filter = A-weighting. iv. Set Frequency Limit Low = 300 Hz. v. Set Frequency Limit High = 15000 Hz. 4. Configure generator: a. Set carrier frequency = 1000 kHz. (11.85 MHz for shortwave) b. Select AM Modulation. i. Set AM Modulation Depth = 30%. ii. Set Source = LFGEN. iii. Set LFGEN Frequency = 1 kHz. c. Set RF Level = 60 dBμV. d. Enable AM Modulation. e. Enable RF Carrier. 5. Decrease signal generator RF level, until the tuning indicator turns off. 6. Then Increase signal generator RF level VRF0 from low to high until tuning indicator turns on. 7. Tuning indicator sensitivity = VRF0. 5.14.3. Pass Criteria AM Tuning indicator sensitivity should be no more than 22 dBμV. SW Tuning indicator sensitivity should be no more than 20 dBμV. Rev. 0.3 39 AN603 DOCUMENT CHANGE LIST Revision 0.2 to Revision 0.3 40 Updated the title. Updated figures 1-7. Updated "1. Introduction" Updated "2. FM Tuner Testing Setup" Updated "3.1. FM Tuning Frequency Range" Updated "4. AM/SW Tuner Testing Setup" Updated "5.1 AM/SW Tuning Frequency Range" Rev. 0.3 AN603 NOTES: Rev. 0.3 41 AN603 CONTACT INFORMATION Silicon Laboratories Inc. 400 West Cesar Chavez Austin, TX 78701 Tel: 1+(512) 416-8500 Fax: 1+(512) 416-9669 Toll Free: 1+(877) 444-3032 Email: [email protected] Internet: www.silabs.com Patent Notice Silicon Labs invests in research and development to help our customers differentiate in the market with innovative low-power, small size, analogintensive mixed-signal solutions. Silicon Labs' extensive patent portfolio is a testament to our unique approach and world-class engineering team. The information in this document is believed to be accurate in all respects at the time of publication but is subject to change without notice. Silicon Laboratories assumes no responsibility for errors and omissions, and disclaims responsibility for any consequences resulting from the use of information included herein. Additionally, Silicon Laboratories assumes no responsibility for the functioning of undescribed features or parameters. Silicon Laboratories reserves the right to make changes without further notice. Silicon Laboratories makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does Silicon Laboratories assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation consequential or incidental damages. Silicon Laboratories products are not designed, intended, or authorized for use in applications intended to support or sustain life, or for any other application in which the failure of the Silicon Laboratories product could create a situation where personal injury or death may occur. Should Buyer purchase or use Silicon Laboratories products for any such unintended or unauthorized application, Buyer shall indemnify and hold Silicon Laboratories harmless against all claims and damages. Silicon Laboratories and Silicon Labs are trademarks of Silicon Laboratories Inc. Other products or brandnames mentioned herein are trademarks or registered trademarks of their respective holders. 42 Rev. 0.3