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| PRELIMINARY NJM2706 3D Surround Audio Processor with Dynamic Bass Boost s GENERAL DESCRIPTION The NJM2706 is the 3D surround audio processor with dynamic bass boost, regenerates rich sound field with only small two speakers. The NJM2706 performs NJRC original surround technology realizing natural surround sound field regarded center orientation and NJRC original dynamic bass boost technology provides graceful bass sound with low distortion. It is suitable for mini-component, CD radio-cassette, TV, speaker system and others. s PACKAGE OUTLINE NJM2706VE1 NJM2706M s FEATURES q Operating Voltage +4.7V to +13.0V q Wide Dynamic Range 3.1Vrms typ. q Low Output Noise 8.9Vrms typ. q "eala" 3D Surround Function (Stereo only) q Dynamic Bass Boost Function q High Frequency Compensation (f=10kHz, GV=+3dB) q Variable Surround Effect by external resistor q Internal Mode Control Switch q Bipolar Technology q Package Outline DMP24, SSOP24 s BLOCK DIAGRAM 24 23 22 21 20 19 18 17 16 15 14 13 L SW HP H Vref 50K 3D FILTER H L SW SW H:eala L:BYPASS SW H:eala_Bass L:BYPASS LPF VC H L SW HP 50K H L SW 1 2 3 4 5 6 7 8 9 10 11 12 50K 50K -1- NJM2706 s PIN CONFIGURATION PRELIMINARY DMP24, SSOP24 (Top View) 1 2 3 4 5 6 7 8 9 10 11 12 24 23 22 21 20 19 18 17 16 15 14 13 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. LPF MIN MOUT Ca Cr BASSFIL1 BASSFIL2 BASSVRIN BASSVROUT ealaVRIN ealaVROUT GND 13. V+ 14. VREFOUT 15. VREFIN 16. SW1 17. SW2 18. ealaFIL 19. HFFILL 20. HFFILR 21. ROUT 22. LOUT 23. RIN 24. LIN -2- PRELIMINARY sABSOLUTE MAXIMUM RATING (Ta=25C) PARAMETER Supply Voltage Power Dissipation Operating Temperature Range Storage Temperature Range SYMBOL + V PD Topr Tstg RATINGS 15 (DMP24) 700 (SSOP24) 600 -40 to +85 -40 to +125 UNIT V mW C C NJM2706 sOPERATING VOLTAGE PARAMETER Operating Voltage SYMBOL TEST CONDITION - MIN 4.7 TYP 12.0 MAX 13.0 UNIT V V+ sELECTRICAL CHARACTERISTICS (Ta=25C, V+=12V unless otherwise specified) TEST CONDITION PARAMETER Operating Current Reference Voltage SYMBOL INPUT L R 0 0 0 0 0 0 + OUT PUT MODE eala VR Bass VR MIN 5.8 TYP 15.4 15.4 6.0 MAX 23.0 23.0 6.2 UNIT ICC Vref No Signal No Signal - Bypass Bass - MAX - - mA V qAC CHARACTERISTICS (Ta=25C, V =12V, VIN=-20dBV(100mVrms) unless otherwise specified) TEST CONDITION PARAMETER Maximum Input Voltage SYMBOL INPUT L R VIN VIN VIN VIN VIN 0 0 0 0 VIN VIN VIN VIN VIN f=1kHz THD=3% f=100Hz THD=3% f=1kHz THD=3% f=10kHz THD=3% f=100Hz THD=3% VIN VIN VIN VIN VIN 0 0 0 0 VIN VIN VIN VIIN VIN - OUT PUT MODE eala VR Bass VR MIN 10.0 (3.2) 7.8 (2.5) 3.4 (1.5) - TYP 12.0 (4.0) 6.0 (2.0) 7.9 (2.5) 9.8 (3.1) 5.4 (1.9) -110 (3) -98 (13) -100 (10) -97 (14) 0.005 0.05 0.05 0.05 MAX UNIT VIM L R *1 L R L R L R L R L R L R L R L R L R L R L R Bypass Bass eala eala Bass eala Bass Bypass Bass eala eala Bass Bypass Bass eala eala Bass MAX MAX MAX MAX MAX MAX MAX MAX MAX MAX MAX MAX MAX MAX -100 (10) -92 (25) 0.01 % 0.5 dBV (Vrms) dBV (Vrms) Output Noise VNO Rg=0 A-Weighted Rg=0 A-Weighted Rg=0 A-Weighted Rg=0 A-Weighted Total Harmonic Distortion THD f=1kHz f=100Hz f=1kHz f=1kHz *1:BASSVR2OUT -3- NJM2706 + PRELIMINARY TEST CONDITION qAC CHARACTERISTICS (Ta=25C, V =12V, VIN=-20dBV(100mVrms) unless otherwise specified) PARAMETER SYMBOL INPUT L R VIN VIN VIN VIN VIN VIN VIN VIN VIN + OUT PUT MODE eala VR Bass VR MIN TYP MAX UNIT Bypass Gain eala Gain GVBYP Geala f=1kHz f=100Hz f=100Hz f=1kHz f=1kHz f=100Hz f=10kHz VIN VIN VIN VIN VIN VIN VIN VIN VIN - L R L R L R L R L R L R L R Bypass Bass Bass eala eala eala Bass eala Bass MAX MIN MAX MAX MAX MIN MAX MAX -1.0 4.4 -2.0 2.1 -2.0 5.9 0.0 0.0 6.4 0.0 4.1 0.0 7.9 2.0 1.0 8.4 2.0 6.1 dB dB 2.0 9.9 4.0 qCONTROL CHARACTERISTICS (Ta=25C, V =12V, unless otherwise specified) PARAMETER MODE Select Control Voltage SYMBOL TEST CONDITION VIN=High Level VIN=Low Level MIN 2.0 0.0 TYP - MAX V + UNIT V VMODE 0.7 sSWITCH FUNCTION MODE SW2 SW1 NOTES Input Through 3D Surround mode Bass Enhanced mode 3D Surround and Bass Enhanced mode Bypass eala Bass eala Bass L L H H L H L H -4- PRELIMINARY !TERMINAL DESCRIPTION NJM2706 VOLTAGE No. SYMBOL FUNCTION EQUIVALENT CIRCUIT V+ V+ 1 LPF Capacitor terminal for LPF 16k V+/2 150 V+ V+ V+ 2 MIN Monaural Amplifier Input 150 20k V+/2 V+ V+ 16k 10k 50 3 MOUT Monaural Amplifier Output 50 V+/2 V+ V+ 4 5 Ca Cr V+ V+ VCA 10k Capacitor Terminal for Attack Time Constant Capacitor Terminal for Release Time Constant 0V 100 V+ 10k 82k 6 BASSFIL1 BASS Filter Terminal 1 150 0V -5- NJM2706 !TERMINAL DESCRIPTION PRELIMINARY FUNCTION EQUIVALENT CIRCUIT V+ V+ No. SYMBOL VOLTAGE V+ V+ 50 7 21 22 BASSFIL2 ROUT LOUT BASS Filter Terminal 2 Rch Output Lch Output 50 V+/2 V+ 8 BASSVRIN BASS Effect Adjust Terminal 150 V+/2 V+ V+ V+ 20k 9 BASSVROUT BASS Effect Adjust Terminal 150 V+/2 V+ V+ 10 ealaVRIN 20k eala Effect Adjust Terminal 150 V+/2 V+ V+ 20k 10k 50 11 ealaVROUT eala Effect Adjust Terminal 50 V+/2 -6- PRELIMINARY !TERMINAL DESCRIPTION NJM2706 VOLTAGE No. SYMBOL FUNCTION EQUIVALENT CIRCUIT 12 GND GND Terminal 0V 13 V+ Power Supply Terminal V+ V+ V+ V+ 50 14 VREFOUT Reference Voltage Output 400 50 V+/2 V+ V+ V+ 15 VREFIN 50k Reference Voltage Input V+/2 400 V+ V+ 50k V+ 16 17 SW1 SW2 Mode Switch 1 Mode Switch 2 0V 150 150k -7- NJM2706 !TERMINAL DESCRIPTION PRELIMINARY FUNCTION EQUIVALENT CIRCUIT V+ V+ No. SYMBOL VOLTAGE 18 ealaFIL eala Filter Terminal 10k 32k V+/2 V+ V+ 19 20 HFFILL HFFILR High Frequency Filter for Lch High Frequency Filter for Rch 15k V+/2 400 V+ V+ V+ 23 24 RIN LIN Rch Input Lch Input V+/2 150 50k VREF -8- C1 0.1 F R1 20K MIN 10 F C13 Lch Output 10 F C12 10 F R6 C11 Rch Output RIN Rch Input LPF 10 F C15 LIN Lch Input C16 24 sAPPLICATION CIRCUIT 1 23 2 22 3 C2 MOUT Ca ROUT LOUT 21 4 1 F C3 20 5 10 F C4 Cr HFFILR 30K 560pF R5 C10 19 6 0.18 F R2 BASSFIL1 HFFILL 18 7 BASSFIL2 ealaFIL 20K Max Min 30K 560pF C9 0.0047 F R4 C8 10K BassSW 17 8 BASSVRIN 20KB SW2 PRELIMINARY BassVR 10 F R3 C7 10K ealaSW 16 9 BASSVROUT SW1 Max Min 10 F C6 15 10 ealaVR 20KB ealaVRIN VREFIN 1 F C5 11 12 14 VREFOUT ealaVROUT GND V+ 10 F 12V 13 C17 100 F NJM2706 -9- NJM2706 sAPPLICATION NOTE PRELIMINARY 1. Fine-Tuning the ealaBASS The NJM2706 has quite sophisticated NJRC's original dynamic bass-boost technology. Both of the level and the frequency for bass-boost moves automatically corresponding to the input signal level. This dynamic filtering action prevents the signals over boosted, and provides less distortion and wide dynamic range bass-boost processing. In addition, if you want to fine-tune the bass-boost effect for your system, you can modify the bass-boost effect by changing the external parts value as described below. 1-1. Modify the Boost Center Frequency This plot shows the frequency response for NJM2706 ealaBASS. Frequency Characteristics (eala Bass) V+=12V Vin=-20dBVLch Vout=Lch RL=4.7k Rg=25 10 C4=0.1F C4=0.15F C4=0.18F 5 Gain [dB] 0 -5 10 100 1000 10 4 10 5 Frequency [Hz] The Boost Center Frequency can be adjusted by changing the value for the external capacitor, C4. If your speaker system has more than 100Hz of f0 (= Lower Frequency Response Range), or, if you would like to get more powerful bass-boost effect than the typical settings shown on the page 9, increasing the Boost Center Frequency higher could be a good idea. We strongly recommend you to determine the actual capacitance value by testing and examinations on your actual application. 1-2. Modification for the LPF Cut-off Frequency fCL This picture shows the equivalent circuit for NJM2706's LPF. 20k 20k Lch 20k Rch 16k 1 MONO Amp. C1 0.1 2 3 LPF The LPF Cut-off Frequency fCL is given by the following equation: 1 1 fCL= 2CR = 2C1x16k Set the fCL as same as the Boost Center Frequency, which is determined as above (The Boost Center Frequency = the frequency of which the gain is +3dB). In the typical application circuit shown on the page 9, the LPF Cut-off Frequency fCL is set to 100Hz. - 10 - PRELIMINARY NJM2706 1-3. Adjusting the Summing Level for ealaBASS effect to L/R Output Signal Changing the resistance value connected between the terminal 8 and 9 can modify the Summing Level for the ealaBASS effect to the L/R Output Signal. 2. Adjusting the High Frequency Compensation Filter The NJM2706 has High Frequency Compensation Filter, which can produce well balance between boosted-bass frequency range and treble frequency range. This picture shows the equivalent circuit for the High Frequency Compensation Filter. 15k 20 HFFIL R6 30k C11 560p The Cut-off Frequency fCH and the Voltage Gain GVH are defined as below: fCH= 1 = 2CR 1 2xC11xR6 GVH= 20log R6+15k R6 In the typical application circuit shown on the page 9, the High Frequency Compensation Filter Cut-off Frequency fCH is set to 10kHz and Voltage Gain GVH is set to 3.5dB. - 11 - NJM2706 sTYPICAL CHARACTERISTICS Supply Current vs. Supply Voltage V+=1-13V, Ta=25 oC 20 PRELIMINARY Supply Current vs. Temperature V+=12V 16 BASS eala BASS 15 15 Bypass Supply Current [mA] 14 Supply Current [mA] BASS 10 eala 13 Bypass 12 5 11 0 0 5 10 Supply Voltage [V] 15 20 10 -50 0 50 100 o 150 Temperature [ C] Maximum Input Voltage vs. Supply Voltage (Bypass) Vin=Lch, Vout=Lch, f=1kHz, RL=4.7k , Rg=25, Ta=25 oC 20 Maximum Input Voltage vs. Supply Voltage (BASS) Vin=Lch+Rch, Vout=BASSVROUT, f=100Hz, RL=4.7k , Rg=25, Ta=25 oC 20 15 15 Maxmum Input Voltage [dBV] 10 Maximum Input Voltage [dBV] 10 5 5 0 0 -5 -5 -10 0 4 8 12 16 -10 0 4 8 12 16 Supply Voltage [V] Supply Voltagte [V] Maximum Input Voltage vs. Supply Voltage (eala) Vin=Lch, Vout=Lch, f=1kHz, RL=4.7k , Rg=25, Ta=25 oC 15 15 Maximum Input Voltage (eala BASS) Vin=Lch, Vout=Lch, f=10kHz, RL=4.7k , Rg=25, Ta=25 oC 10 10 Maximum Input Voltage [dBV] Maximum Input Voltage [dBV] 5 5 0 0 -5 -5 -10 -10 -15 0 4 8 12 16 -15 0 4 8 12 16 Supply Voltage [V] Supply Voltage [V] - 12 - PRELIMINARY s TYPICAL CHARACTERISTICS Maximum Input Voltage vs. Supply Voltage (eala BASS) Vin=Lch+Rch, Vout=Lch, f=100Hz, RL=4.7k , Rg=25 Ta=25 oC 15 -90 eala BASS BASS NJM2706 Output Noise vs. Temperature V+=12V, Vin=GND, Vout=Lch 10 -95 Maximum Input Voltage [dBV] 5 Output Noise [dBV] -100 eala -105 0 -5 -110 Bypass -115 -10 -15 0 4 8 12 16 -120 -50 0 50 Temperature [ C] o 100 150 Supply Voltage [V] THD+N vs. Input Voltage (Bypass) 10 THD+N vs. Input Voltage (Bypass) V+=12V, Vin=Lch, Vout=Lch, f=1kHz, RL=4.7k , Rg=25, BW=10-80KHz 10 V+=12V, Vin=Lch, Vout=Lch, f=100Hz, RL=4.7k , Rg=25, BW=10-80kHz 1 1 Ta=85oC Ta=85oC THD+N [%] THD+N [%] 0.1 Ta=25oC Ta=-40oC 0.1 Ta=25oC Ta=-40oC 0.01 0.01 0.001 0.001 0.0001 -50 -40 -30 -20 -10 0 10 20 0.0001 -50 -40 -30 -20 -10 0 10 20 Input Voltage [dBV] Input Voltage [dBV] THD+N vs. Input Voltage (Bypass) 10 THD+N vs. Input Voltage (eala) V+=12V, Vin=Lch, Vout=Lch, f=1kHz, RL=4.7k , Rg=25, BW=10-80kHz 10 V+=12V, Vin=Lch, Vout=Lch, f=10kHz, RL=4.7k , Rg=25, BW=10-80kHz 1 1 Ta=-40oC Ta=25oC Ta=85oC THD+N [%] Ta=85oC 0.1 Ta=25 C Ta=-40oC o THD+N [%] 0.1 0.01 -10 0 10 20 0.01 0.001 -50 -40 -30 -20 -50 -40 -30 -20 -10 0 10 20 Input Voltage [dBV] Input Voltage [dBV] - 13 - NJM2706 s TYPICAL CHARACTERISTICS PRELIMINARY THD+N vs. Input Voltage (eala BASS) V+=12V, Vin=Lch, Vout=Lch, f=100Hz, RL=4.7k , Rg=25, BW=10-80kHz 10 THD+N vs. Input Voltage (eala BASS) V+=12V, Vin=Lch, Vout=Lch, f=1kHz, RL=4.7k , Rg=25, BW=10-80kHz 10 1 1 Ta=85 C Ta=25oC Ta=-40oC o THD+N [%] THD+N [%] Ta=-40oC Ta=25oC 0.1 Ta=85oC 0.1 0.01 -50 -40 -30 -20 -10 0 10 20 0.01 -50 -40 -30 -20 -10 0 10 20 Input Voltage [dBV] Input Voltage [dBV] THD+N vs. Input Voltage (eala BASS) V+=12V, Vin=Lch, Vout=Lch, f=20kHz, RL=4.7k , Rg=25, BW=10-80kHz 10 Gain vs. Frequency (Bypass) V+=12V, Vin=-20dBV Lch, Vout=Lch, RL=4.7k , Rg=25 3 2 Ta=85oC 1 1 Ta=25oC Ta=-40oC THD+N [%] Ta=-40oC Ta=25oC 0.1 Ta=85oC Gain [dB] 0 -1 -2 0.01 -50 -40 -30 -20 -10 0 10 20 -3 10 100 1000 10 4 10 5 Input Voltage [dBV] Frequency [Hz] Gain vs. Frequency (BASS) V+=12V, Vin=-20dBV Lch+Rch, Vout=Lch, RL=4.7k , Rg=25 12 12 Gain vs. Frequency (eala) V+=12V, Vin=-20dBV Lch, Vout=Lch, RL=4.7k , Rg=25 10 10 8 Ta=85oC 8 Ta=85oC Gain [dB] Gain [dB] 6 Ta=25oC Ta=-40oC 6 Ta=25oC Ta=-40oC 4 4 2 2 0 0 -2 10 100 1000 10 4 10 5 -2 10 100 1000 10 4 10 5 Frequency [Hz] Frequency [Hz] - 14 - PRELIMINARY s TYPICAL CHARACTERISTICS NJM2706 Gain vs. Frequency (eala BASS) V+=12V, Vin=-20dBV Lch, Vout=Lch, RL=4.7k , Rg=25 12 Gain vs. Frequency (eala BASS) 20 10 Ta=85oC 8 Ta=25oC Ta=-40oC 15 -40dBV INPUT 10 Gain [dB] -30dBV INPUT -20dBV INPUT -10dBV INPUT 5 0dBV INPUT Gain [dB] 6 4 2 0 0 -2 10 100 1000 10 4 -5 10 5 10 100 Frequency [Hz] 1000 10 4 Frequency [Hz] [CAUTION] The specifications on this databook are only given for information , without any guarantee as regards either mistakes or omissions. The application circuits in this databook are described only to show representative usages of the product and not intended for the guarantee or permission of any right including the industrial rights. - 15 - |
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