1/4 Structure : Silicon Monolithic Integrated Circuit Product : Audio sound controller Type : BD3882FV Feature : Dual built-in recording and playing preamplifiers for cassette tapes Less external components allows a compact size of the set. The shock sound at power-ON/OFF is absorbed by both power sources. The reference voltage of signal systems is designed to be a ground level so that low offset voltage and low noise are achieved. Absolute Maximum Ratings (Ta=25) Parameter Symbol Limits VDD 5 Power Supply Voltage VEE -5 Pd 900 Power Dissipation Operating Temperature Topr 2075 Storage Temperature Tastg 55125 Over Ta25C, derating at the rate of 9.0mW/C. When installed on the standard board (Size: 70x70x1.6mm). Unit V mW Operating Voltage Range Unit Symbol Limit VDD 3.54.75 V VEE -4.75-3.5 V (It must function normally at Ta = 25) Application example Note that ROHM cannot provide adequate confirmation of patents. The product described in this specification is designed to be used with ordinary electronic equipment or devices (such as audio-visual equipment, office-automation equipment, communications devices, electrical appliances, and electronic toys). Should you intend to use this product with equipment or devices which require an extremely high level of reliability and the malfunction of which would directly endanger human life (such as medical instruments, transportation equipment, aerospace machinery, nuclear-reactor controllers, fuel controllers and other safety devices), please be sure to consult with our sales representative in advance. REV. B 2/4 Electrical characteristics GENERAL (Ta = 25C, VDD = 4.5V, VEE = -4.5V, f = 1kHz, Vin = 50mVrms, Rg = 600, RL = 10k, Input Selector = Ach, Front Volume=0dB, Rear Volume=0dB, Bass=0dB, Middle=0dB, Treble=0dB, unless otherwise noted.) Limit Parameter Symbol Unit Conditions Min. Typ. Max. VDD Circuit Current IQVDD - 4.5 10.0 VEE Circuit Current IQVEE -10.0 -4.5 - 0.6 0.8 - Vrms THD(Vout) =1%, BPF = 40030kHz Front Volume = -6dB Rear Volume = -18dB Vaim Bch Maximum Input Voltage Vbim Cch Maximum Input Voltage Vcim Maximum Input Voltage TP Vimtp 0.6 0.8 - Vrms THD(Vout)=1%, BPF = 40030kHz GAIN = 10dB, Front Volume = -6dB Rear Volume = -18dB Maximum Output Voltage Vom 2.2 2.5 - Vrms THD = 1%, BPF = 40030kHz Voltage Gain Gv 26 28 30 dB Gv = 20log(Vout/Vin) Channel Balance CB -1.5 0 1.5 dB CB = Gv1-Gv2 Total Harmonic Distortion Ratio THD - 0.01 0.1 Output Noise Voltage Vno - 22 60 Vrms Residual Noise Voltage Vmno - 3 8 Vrms PLAY BACK EQ RECODING EQ KARA OKE INPUT Output Impedance Voltage Gain A Voltage Gain B Voltage Gain C FRONT VOLUME Vin = 0Vrms Ach Maximum Input Voltage Cross-talk between Channels * REAR VOLUME mA 70 85 - dB Rout 50 Gva Gvb Gvc 8 10 12 dB -110 -70 dB Rg = 0, BPF = IHF-A Vin=500mVrms 1ch mono 2ch mono 1ch+2ch CTab1 Cross-talk between Selectors A2chB2ch * CTab2 Cross-talk between Selectors B1chC1ch * CTbc1 Cross-talk between Selectors B2chC2ch * CTbc2 Cross-talk between Selectors C1chA1ch * CTca1 Cross-talk between Selectors C2chA2ch * Selector Output Impedance Karaoke Voltage Gain 1ch mono Karaoke Voltage Gain 2ch mono Karaoke Voltage Gain 1ch + 2ch Voltage Gain RC CTca2 Rsout Gk1 Gk2 Gk12 Gvrc 8 8 8 38 10 10 10 40 50 12 12 12 42 dB dB dB dB Maximum Output Voltage RC Vomrc 2.2 2.5 - Vrms Input conversion Noise Voltage RC Vnorc - 1.5 3.0 Vrms Vtr 2 4 - V/S Voltage Gain TP Volume=-, BPF = IHF-A, Rg=0 CT = 20log(Vin/Vout) BPF = IHF-A, Rg = 0 CT Cross-talk between Selectors A1chB1ch * Slew Rate RC BPF = 400-30KHz BPF = IHF-A, Rg = 0 f=10kHz THD=1%, BPF=40030kHz Rg = 0, BPF = IHF-A Gvtp 44 46 48 dB Maximum Output Voltage TP Vomtp 2.2 2.5 - Vrms Input conversion Noise Voltage TP Vnotp - 1.1 2.0 Vrms Rg=2.2k, BPF=IHF-A, Gv=20dB Volume Maximum Input Voltage Vimv 1.5 1.9 Vrms THD(Vout)=1%, BPF=40030kHz Front Volume ATT=-6dB Rear Volume ATT=-18dB Volume Volume Volume Volume Volume Input Impedance Control Range Control Step 1 Control Step 2 Setting Error F Rvin Vr Sv1 Sv2 Evf 14 -79 -2 20 -76 2 4 0 26 -73 2 K dB dB dB dB Volume Maximum Attenuation * ATTm -116 -90 dB RVr -20 -18 -16 dB BPF=40030kHz Evrr -2 0 2 dB All steps Volume Control Range Volume Setting Error R REV. B f=10kHz THD=1%, BPF=40030kHz BPF = IHF-A 0dB to -36dB -36dB to -76dB 0dB to -76dB Volume = -, BPF = IHF-A ATT=20log(Vout/Vin)-18dB 3/4 MIDDLE TREBLE BASS Parameter Symbol Limit Min. Typ. Max. Unit Bass Boost Control Range Gbbr +11 +14 +17 dB Bass Cut Control Range Gbcr -17 -14 -11 dB Bass Control Step Sbc - 2 - dB Bass Setting Error (-12dB12dB) Ebs1 -2 0 2 dB Bass Setting Error 14dB Ebs2 -3 0 3 dB Treble Boost Control Range Gbr +11 +14 +17 dB Treble Cut Control Range Gtcr -17 -14 -11 dB Treble Control Step Stc - 2 - dB Treble Setting Error (-12dB12dB) Ets1 -2 0 2 dB Treble Setting Error (14dB) Ets2 -3 0 3 dB Middle Boost Control Range Gmbr +11 +14 +17 dB Middle Cut Control Range Gmcr -17 -14 -11 dB Middle Control Step Smc - 2 - dB Middle Setting Error (-12dB12dB) Ems1 -2 0 2 dB Middle Setting Error (14dB) Ems2 -3 0 3 dB Conditions f = 55Hz, Vin = 10mVrms BASS = +14dB f = 55Hz, Vin = 10mVrms BASS = -14dB f = 55Hz Vin = 10mVrms f = 10kHz, Vin = 10mVrms TREBLE = +14dB f = 10kHz, Vin = 10mVrms TREBLE = -14dB f = 10kHz Vin = 10mVrms f = 1kHz, Vin = 10mVrms MIDDLE = +14dB f = 1kHz, Vin = 10mVrms MIDDLE = -14dB f = 1kHz Vin = 10mVrms The operational amplifier for PB should be used with the gain of 10dB or above. The input voltage over 1.9Vrms(Typ.) causes a distortion on the output wave at around the setting of Front Volume=0dB. Therefore, using at 1.9Vrms or less is recommended. For measurement, VP-9690A (Average value wave detection, Effective value display) IHF-A filter by Matsushita Communication Industrial is used. Phase relation between Input/Output signal terminals is Equiphase. Not designed for radiation resistance. Outline dimensionMarking dimension Block Diagram 40 39 38 37 36 35 REC1O REC1N REC2N REC2O INC2 34 INC1 33 INB2 32 INB1 INA2 31 INA1 30 29 28 27 RVFIL2 RVFIL1 OUT1 OUT2 26 25 24 23 22 21 BAS12 BAS11 BAS22 BAS21 MID12 MID11 BASS MIDDLE BD3882FV BASS REAR VOLUME REAR VOLUME 20k 9.3k LOT No. TREBLE FRONT VOLUME Logic Control TREBLE FRONT VOLUME 20k MIDDLE 9.3k PB1P PBN 1 2 PB2P 3 PB2N 4 FGND PB2O 5 6 PB1O 7 VOLIN1 VOLIN2 MGND TRE11 8 9 10 11 12 TRE12 TRE21 TRE22 MID21 MID22 VDD 13 14 Unit: Resistance = SSOP-B40 (Unitmm) REV. B 15 16 17 SI 18 SC 19 VEE 20 4/4 Pin numberPin name Pin number Pin name Pin number Pin name Pin number Pin name Pin number Pin name Pin number Pin name 1 2 3 4 5 6 7 8 PB1N PB1P PB2P PB2N FGND PB2O PB1O VOLIN1 9 10 11 12 13 14 15 16 VOLIN2 MGND TRE11 TRE12 TRE21 TRE22 MID21 MID22 17 18 19 20 21 22 23 24 VDD SI SC VEE MID11 MID12 BAS21 BAS22 25 26 27 28 29 30 31 32 BAS11 BAS12 OUT2 OUT1 RVFIL1 RVFIL2 INA1 INA2 33 34 35 36 37 38 39 40 INB1 INB2 INC1 INC2 REC2O REC2N REC1N REC1O Cautions on use 1About operating voltage range and operating temperature range Within the Operating Voltage Range and the Operating Temperature Range, while basic circuit functional operations are supposed to be guaranteed, the standard values of the electrical characteristics are guaranteed only when used under the specific conditions defined within these ranges. Thus, the users must verify those conditions before setting constants, elements, voltages, and temperatures. Note that the conditions of power dissipation are also affected with temperatures. 2About power on reset A built-in circuit for performing initialization inside the IC at power-ON is provided. In the case of the set design, however, to be on the safe side, it is recommended that data shall be sent to all the addresses as initial data at power-ON and, until this sending operation is completed, the mute shall be applied. Function Initial Condition Input Selector REC Output Karaoke Front Volume Rear Volume Treble Gain Middle Gain Bass Gain MUTE REC MUTE Stereo -dB -18dB 0dB 0dB 0dB 3About 2-wire serial control As the terminals of SI and SC are designed for inputting high-frequency digital signals, the wiring and layout patterns should be routed not to cause interference with the analog-signal-related lines. 4About power ON/OFF Shock sound absorbing measures at power ON/OFF are implemented on 5pin, 6pin, 16pin, 18pin, 25pin, and 28pin for BD3881FV, as well as on 6pin, 7pin, 27pin, 28pin, 37pin, and 40pin for BD3882FV. When booting up power supplies, the VEE side should be booted a little bit earlier than the other side. If the VDD side is booted up first, an excessive current may pass VDD through VEE. When booting off the power supply, the VDD side should be booted off a little bit earlier than the other side. Note that, at this time, voltage change passing through the GND level may produce an abnormally large current. 5About function switching On switching between the Front Volume, Rear Volume, Bass, Middle, Treble, Karaoke, and REC Mute functions, the action has been taken to absorb such switching shock sound. For the other function switching operations, a combined use of MUTE is recommendable. REV. B Notice Notes No copying or reproduction of this document, in part or in whole, is permitted without the consent of ROHM Co.,Ltd. The content specified herein is subject to change for improvement without notice. The content specified herein is for the purpose of introducing ROHM's products (hereinafter "Products"). If you wish to use any such Product, please be sure to refer to the specifications, which can be obtained from ROHM upon request. Examples of application circuits, circuit constants and any other information contained herein illustrate the standard usage and operations of the Products. The peripheral conditions must be taken into account when designing circuits for mass production. Great care was taken in ensuring the accuracy of the information specified in this document. However, should you incur any damage arising from any inaccuracy or misprint of such information, ROHM shall bear no responsibility for such damage. The technical information specified herein is intended only to show the typical functions of and examples of application circuits for the Products. ROHM does not grant you, explicitly or implicitly, any license to use or exercise intellectual property or other rights held by ROHM and other parties. ROHM shall bear no responsibility whatsoever for any dispute arising from the use of such technical information. The Products specified in this document are intended to be used with general-use electronic equipment or devices (such as audio visual equipment, office-automation equipment, communication devices, electronic appliances and amusement devices). The Products specified in this document are not designed to be radiation tolerant. While ROHM always makes efforts to enhance the quality and reliability of its Products, a Product may fail or malfunction for a variety of reasons. Please be sure to implement in your equipment using the Products safety measures to guard against the possibility of physical injury, fire or any other damage caused in the event of the failure of any Product, such as derating, redundancy, fire control and fail-safe designs. ROHM shall bear no responsibility whatsoever for your use of any Product outside of the prescribed scope or not in accordance with the instruction manual. The Products are not designed or manufactured to be used with any equipment, device or system which requires an extremely high level of reliability the failure or malfunction of which may result in a direct threat to human life or create a risk of human injury (such as a medical instrument, transportation equipment, aerospace machinery, nuclear-reactor controller, fuelcontroller or other safety device). ROHM shall bear no responsibility in any way for use of any of the Products for the above special purposes. If a Product is intended to be used for any such special purpose, please contact a ROHM sales representative before purchasing. If you intend to export or ship overseas any Product or technology specified herein that may be controlled under the Foreign Exchange and the Foreign Trade Law, you will be required to obtain a license or permit under the Law. Thank you for your accessing to ROHM product informations. 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