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| KA22296 DOUBLE DECK SYSTEM FOR RADIO CASSETTE PLAYBACK / RECORD PRE AMPLIFIER FOR DOUBLE DECK 30-SDIP-400 KA22296 is a monolithic intergrated circuit consisting of a dual input playback amplifier, two channel recording amplifier, 3 outside input selecting switch, and MIC Amp. Due to KA22296 possessing MIC input mixing function, it is practical to apply to systems like CD and radio cassette set. ORDERING INFORMATION Device KA22296 Package 30-SDIP-400 Operating Temperature -25C ~ +75C FEATURES * * * * * * * * Dual input two - channel playback amplifier. Recording / Playback function Tape dubbing function NAB EQ ( 60us) for High speed recording function Allowing 3 ( Line 1, Line 2 and AUX ) outside inputs MIC function ( Independent and mixture ) ALC function Operating voltage ( 4V ~ 10V ) : recommended voltage 6 ~ 9 Volt 30 SDIP KA22296 DOUBLE DECK SYSTEM FOR RADIO CASSETTE BLOCK DIAGRAM CH1-MONOTOR output CH2-MONITOR utput CH1-PLAY output CH2-PLAY output CH1-REC output CH2-REC output CH1-PLAY NF CH2-PLAY NF CH1-REC NF 30 29 28 27 26 25 24 23 22 LEVEL DET 21 20 20KO REC X2 + AMP- REC + AMP- 20KO 1KO 1KO CH2-REC NF 19 ALC R/R L1 switch L0 switch X2 CCA CCA 18 20KO INV + AMP - 20KO 3.3KO 1.8KO 3.3KO 1.8KO INV + AMP - 20KO 20KO SWITCH CONTROL 17 MIC swith 16 A/B switch 20KO 15 R/P switch 20KO NAB + AMP NAB + AMP - INPUT SELECTOR Voltage Regulator INPUT SELECTOR INV + AMP - 20KO 2KO 8 CH1-LINE1 input 9 CH1-LINE2 input 10 CH1-AUX input 11 12 13 CH2-LINE2 Input CH2-LINE1 input CH2-AUX input 14 1 2 3 4 5 6 7 CH1-A input CH1-B input CH2-B input CH2-A input ABSOLUTE MAXIMUM RATING ( Ta = 25 C) Characteristic Supply Voltage Power Dissipation Operating Temperature Storage Temperature Symbol VCC PD T OPR T STG Value 12 300 -25 ~ +75 -55 ~ +125 Unit V mW C C Mic input VREF GND VCC KA22296 DOUBLE DECK SYSTEM FOR RADIO CASSETTE ELECTRICAL CHARACTERISTICS (VCC = 6V, Ta = 25C, f = 1Khz unless otherwise specified) Characteristic Quiescent Circuit Current Reference Bias Voltage Swtich Control Voltage A/B Pin16 MIC Pin17 R/P Pin 15 Symbol ICC Vref VSW1 VSW1 VSW1 VSW1 VSW1 VSW1 VSW1 VSW1 L0, L1 Pin 18 / Pin 19 Voltage Gain Max Output Line/ AUX Mode Output Noise Voltage Play Hormonic Distortion back Crosstalk CT1 VSW1 VSW1 GV1 Vom1 Vno1 THD1 Play REC High speed REC A - deck B - deck Mic off Mic only Mic Mix Low High VO = 0.5Vrms THD = 1% Rg = 600, BW = 20-20KHz VO = 0.5Vrms BW = 20-20KHz VO = 0.5Vrms BW = 20-20KHz Ripple Rejection Voltage Gain Max Output R e c o r d Output Noise Voltage ALC Ouptut Hormonic Distortion RR1 GV2 Vom2 Vno2 VA1 THD2 ripple = 0.1Vrms/120Hz VO = 0.5Vrms THD = 1% Rg = 600BW = 20-20KHz Vin = 0.5Vrms VO = 0.5Vrms BW = 20-20KHz Crosstalk CT2 VO = 0.5Vrms BW = 400-20KHz Ripple Rejection RR2 ripple = 0.1V/120Hz -30 dB -65 dB 25 0.9 0.6 -55 27 1.2 500u 0.75 0.3 29 750u 0.9 1.0 dB dB Vrms Vrms Vrms % -65 dB Test Condition A test mode, VCC = 4V Min 7 1.7 Below 0.4V Open or 1.3V-1.9V Above 3V Open or Below 0.5V Above 2V Below 0.4V Open or 1.3V-1.9V Above 3V 0.6--0.8V Above 2V 4 0.75 5.7 1 35u 0.2 8 100u 0.5 dB Vrms Vrms % Typ 12.5 2.1 Max 20 2.4 Unit mA V KA22296 Characteristic DOUBLE DECK SYSTEM FOR RADIO CASSETTE Symbol GV3 Vom3 Vni1 THD3 Test Condition VO = 0.5Vrms THD = 1% Rg = 600, BW = 20-20KHz VO = 0.5Vrms BW = 20-20KHz RR3 GV4 Vom4 Vni2 VA2 THD4 ripple = 0.1V/120Hz VO = 0.5Vrms THD = 1% Rg = 600, BW = 20-20KHz Vin = 0.05Vrms VO = 0.5Vrms BW = 20-20KHz Ripple Rejection Voltage Gain RR4 GV5 ripple = 0.1V/120Hz VO = 0.5Vrms, Normal, 1KHz VO = 0.5Vrms, High, 1KHz Max Output Input Noise Voltage Vom5 Vni3 THD5 THD = 1% Rg = 600, BW = 20-20KHz VO = 0.5Vrms BW = 20-20KHz CT3 VO = 0.5Vrms BW = 20-20KHz Ripple Rejection Voltage Gain Max Output Input Noise Voltage RR5 GV6 Vom6 Vni4 VA3 THD6 ripple = 0.1V/120Hz VO = 0.5Vrms, Normal, 1KHz THD = 1% Rg = 600, BW = 20-20KHz Vin = 5mVrms VO = 0.5Vrms BW = 20-20KHz Crosstalk CT4 VO = 0.5Vrms BW = 20-20KHz Ripple Rejection RR6 ripple = 0.1V/120Hz -17 dB -60 dB 62 0.9 0.6 -36 64 1 2.0m 0.75 0.3 66 3.0m 0.9 1.0 dB dB Vrms Vrms Vrms % -65 dB 40.1 38.6 0.75 -25 42.1 40.6 1 240u 0.3 44.4 42.6 350u 0.5 dB dB dB Vrms Vrms % 45 0.9 0.6 -45 47 1.2 0.8m 0.75 0.3 49 1.2m 0.9 1.0 dB dB Vrms Vrms Vrms % Min 23.6 0.75 Typ 25.6 1 60u 0.3 Max 27.6 150u 0.5 Unit dB Vrms Vrms % Voltage Gain Max Output Line/ AUX Mode Input Noise Voltage Playba Harmonic Distortion ck Ripple Rejection Voltage Gain Mak Output Recor Input Noise Voltage d ALC Output Harmonic Distortion Playba Harmonic Distortion ck Tape Mode Crosstalk Recor ALC Output d Harmonic Distortion KA22296 DOUBLE DECK SYSTEM FOR RADIO CASSETTE PIN DESCRIPTION No. 1/4 Symbol A - input I/O Playback Amplifier A - input Internal Equivalance Circuit VCC 1/4 27/30 2/3 B - input Playback Amplifier B-input GND VCC 2/3 27/30 5 6 GND VREF GND Reference Voltage - GND VCC 6 GND 7 8/11 VCC LINE1 input Supply Voltage LINE 1 External Input Terminal LINE2 External Input Terminal AUX External Input Terminal 30U 30U 30U VCC 9/12 LINE2 input 10/13 9/12 8/11 10/3 AUX input GND KA22296 DOUBLE DECK SYSTEM FOR RADIO CASSETTE No. 14 Symbol MIC input I/O Input Terminal Internal Equivalance Circuit VCC 30U 20U 14 2U GND 15 R/P switch Selecting Terminal VCC 16 A/B switch A, B Playback Input Selecting Terminal MIC Input Selecting Terminal 15 17 2 0U 17 MIC switch 1 2U 1 2 U GND VCC 18 L0 switch EXTERNAL LINE 16 18 19 2 0U 19 L1 switch Selecting Terminal 1 0 U 1 2 U GND 20/24 REC NF REC Amplifier, negative terminal VCC 20U 100 21/23 REC output REC Amplifier Output Terminal 20/24 1U 21/23 GND KA22296 No. 22 Symbol ALC R/R DOUBLE DECK SYSTEM FOR RADIO CASSETTE I/O Ripple Rejection Termianl of ALC Detecting Output 22 Internal Equivalance Circuit VCC GND 25/26 Monitor output Monitor Output Terminal VCC 20U 20U 100 25/26 GND 27/30 PB NF Playback Amplifier VCC 2/3 27/30 28/29 PB output Playback Amplifier Output Terminal for NAB EQ GND VCC int 3.3U 1.8U 28/29 GND KA22296 DOUBLE DECK SYSTEM FOR RADIO CASSETTE APPLICATION INFORMATION 1. SWITCH INPUT CONDITION Tabel 1. Pin Function Pin 15 REC/PB switch Pin 16 A/B deck switch Pin 17 Mic switch A deck enable Mic off Mic only LOW Play only Open Record only B deck enable Mic mixing High High speed record Remark * NAB automatically alters to High EQ. within ( pin 15 = high ) high speed rec. mode. *Due to external RC time constant, it is possible to delay the time of switching. *It is prohibited to mic input into the ( pin 15 = high ) high speed rec. mode. Talbe 2. Function Condition Line 1 Line 2 Aux Tape Pin 18 Open High High Open Pin 19 High Open High Open In Mic only mode ( pin 17 = open ), all of ( line 1, line 2, AUX, Tape function ) will be somewhat disabled. Refer to note 3 open condition. High Remark * According to each mode, function selection basically moved due to the conditions of above table 1,2 * Each function Pins possess characteristical representation of functions not in movement, in respect to its reprenting functions. * By the virtue of each pin's combinations changing frequency, it is wise to set up or plan the circuit according to above table 1,2 input conditions. KA22296 DOUBLE DECK SYSTEM FOR RADIO CASSETTE 2. DESCRIPTION OF SWITCH FUNCTION 2 - 1. Controlling the selection switch of pin 15 play / record Pin 15 is not constructed with logic from inside, however it is constructed by controlling 3 level switches caused by external voltage input. As soon as the power is on, it really doesn't matter if the attach switch is in play ( low mode ). Nevertheless is open ( record mode), it will turn to record stage and depending on it, the ALC circuit will function. After and at the incident of source of electric power being approved, all of the circuits will eventuate unstable and results in tendency not known. Sometime in the begining, it is necessary to find a method to stop ALC movement for a set period of time, and is developed through using original switch period. 100uA Control Voltage 47uF 15 12U Immediately after the approval of source of electric power, through 100UA's current source with capacitor and resistance in the Pin 15, the Pin 15's current gradually increased. Until it reaches the setted voltage level, the record state can not be accomodated. While under this process, the circuit in record part will not receive any inputs, and by disc harging the generated increase voltage of ALC P/R, turn it into initiation. Fig 2 - 1 In the section of high speed recording, 3.5 Volts of control voltage must be inflicted. But under this condition, it is wise to operate at high speed recording after delaying the time by connecting the resistance with the outside electrical series or just approval it first and apply the procedure next. Low Open High 0.5V 0.9V 2.1V 2.6V switch input control Note 1 : 3 steps of input switch ( Pin 15, 17 ) controlled voltage. In the 3 stepped switch recording system, play deciding Pin 15 exist and Mic mode deciding function P17 also exists as well. Voltage in the high mode is more than enough. Low mode's voltage will be achieved if the voltage goes below 0.3 V. The open mode does not deal with any other voltage so just open it. 0 ~ 0.3V open state 3.5V ~ VCC Fig 2 - 3 KA22296 DOUBLE DECK SYSTEM FOR RADIO CASSETTE 2-2 Pin 16 A/B deck selecting switch control Pin 16 is not set up interiorily through logic, but depending on the outside voltage input the changing procedure of voltage range exists as deck A or B. In order to delete the pop - noise which occurs at the time of A/B changing state, this transmission range is selected under the consideration of its design. Even by delaying and reducing or creasing the pin 16 input voltage, the pop noise changes in 's sound can not be heard through our naked eye. Note 2 : double input switch ( Pin16 ) control voltage 100uA 10K The two step switch is Pin 16 which selects the A/B deck. This control voltage is as Fig 2.6. 1. High mode's voltage is more than 2V which is more than sufficient. It is nice to have the low mode in 0.3 voltage or just open it as it is. When it isopened, Pin's voltage is almost zero and in turn results in low voltage. VCC C1 : 22 ~ 47uF 16 10U Fig 2 - 4 Bias A - on B - on 2. As seen in the Fig 2.6 graph, if 0 volts is inputted into DC direction under low condition, special blazing fire could result so it is wise to switch to low when using at open state or at pull down resistance state. B - off 0.9V 1.2V 80 mSec at C1:22uF A - off 1.6V Control Voltage Fig 2 - 5 Note 3: Double input switch ( Pin 18, Pin 19 ) controlled voltage It is constructed into logic formation as different from A/B switch, and the input condition which applies to binary switch formation seem Bias *2 Open State ON rather difficult. About the Low = 0.6 to 0.8 V should be inserted. This under Pin 6 connects to Pin 18, Pin 19 with resisting value of 15U At open state, it becomes 0.7 Volt. High is more than 2 Volt. . OFF 0.9V 1.6V Control Voltage About 10mV at floating Fig 2 - 6 KA22296 DOUBLE DECK SYSTEM FOR RADIO CASSETTE 3. Head Connection Method 3-1 Tape Head connecting method By the virtue of NAB amplifiers input construction layout of this product, the input voltage bias is ' systemised to be supplied from an outside source and head's connection follow below constructed plan / layout's style. 2 3 *N 1 4 6 15 16 + 7 21 23 REC P R H + + OSC + + VCC Fig 3 - 1 In employing record signal, the A/B switch input of pin 16 must be turned into B deck mode. ( It only applies to the above situation ). To suite the user's conviences A and B's extremeties are designed to be replaced. If the record OSC's ingredients exist in play back input, it will have damaging effect within the KA22296. That is why precautions are neccessary. And within recording output pin the ALC DET is internally connected, if recording AC bias appears in this terminal the ALC moves distortly, use the trap to make the recording output terminal bias as small as possible and choose the ' appropriate OSC frequency for the trap. Also at the play mode, since the recording terminals output D.C is bound by 2.1V and abandon it. N : Use/ apply the above switch if OSC frequency find within record mode at the system for mation. KA22296 DOUBLE DECK SYSTEM FOR RADIO CASSETTE 3 - 2. Head Input Circuit ( FET switch ) RECORD OUT REC(High) Play(Open) At this point, in order to make OSC as low as possible control the OSC frequency and trap. To Pin6 (Vref) PLAY HEAD R/P HEAD + + Play(High) REC(Open) If in case the capacitor is not sufficiently large enough, at the time of recording blocking eruption will occur within the specfied frequency. Tape in-B Tape in-A Fig 3- 2 After switching the play head signal will be inputed into tape, and be aware of many forming Hums. 21/23 Rec out 20/24 Rec NF Open the capacitor between the output and the NF Fig 3- 3 KA22296 DOUBLE DECK SYSTEM FOR RADIO CASSETTE 4. Outside Input This product is so designed to accomdate 3 types of outside input and 3 paired input terminals are also present too. It is possible to use each of them independently and their selection lies within the switch output condition of table 1,2. Under the condition of usage it is wise to be aware of situations since it could be inputed through reduction from outside. Take it as a reference when input impedance is reduced to approximately 30U especially the input dynamic range is 0.6Vrms. , The input monitor output gain is 6dB, and take it into an account that record output's gain is 26dB. 30U 8/11 Line 1 30U 0dB 6dB 25/26 Monitor Output 9/12 Line 2 30U 0dB 26dB 0dB NAB AMP Fig 4 - 1 21/23 Record Output 10/13 AUX 5. Mic Input The MIC amplifier's advantage is 20dB. Attention MIC input signal level at MIC mixing mode or another input signal with mixing input signal can reduce because of ALC operating from excessing MIC input signal. + MIC + 14 Mic input 17 Mic switch VCC Fig 5 - 1 KA22296 DOUBLE DECK SYSTEM FOR RADIO CASSETTE 6. NAB CIRCUIT DESIGN NAB device is comprised of R1, R2, C1 and its impedance is as expressed and given. to input selector R2 = 1.8K + R2 = 3.3K 1 + j w C1 { R1 R2 / ( R1 + R2)} H N 28/29 Z =(R1 + R2) 1 + j w C1 R1 27/30 R1=82K And T1 = C1R1, Rnt = 82 47uF C1=0.039uF T2 = C1 ( R1 // R2), T1 = 3198mSec, Fig 6 - 1 ** Internal resistance R2's processor distribution is 3/4 20%. T2 = 123mSec (Nomal) 3/4 24mSec, = 70mSec (High) 3/4 14mSec Frequency gain can be esaily discovered as per given. Gv = 20log ((Rnf + Z) / Rnf) 7. Etc * At the time of High speed copying mode, the ALC will be off and actual recorded system is used while for normal speed it is recorded through ALC. advisable to keep the voltage below 6V for security. peaking circuit for recording at high speed recording mode. The head switching is used as mechanical switch or FET switch for recording circuit. * Within the switch input, it is * It may consider the external KA22296 DOUBLE DECK SYSTEM FOR RADIO CASSETTE 8. AMP GAIN DIAGRAM OF EACH MODE 8 - 1. Tape Playback ae Monitor output 36dB/1KHz NABAMP -64dBm -28dBm 0dB Input selector -28dBm 0dB INVAMP -28dBm 6dB (Gain) MONAMP -22dBm 8 - 2. EXT Playback ae Monitor output 0dB Input selector -28dBm -28dBm 0dB INVAMP -28dBm 6dB (Gain) MONAMP -22dBm 8 - 3. MIC Playback ae Monitor output 20dB MICAMP -48dBm -28dBm 0dB Input selector -28dBm 0dB INVAMP -28dBm 6dB (Gain) MONAMP -22dBm 8 - 4. Tape Playback aeRecord output 36dB/1KHz NABAMP -68dBm -32dBm 0dB Input selector -32dBm 0dB INVAMP -32dBm 28dB (Gain) RECAMP -4dBm 8 - 5. EXT Playback aeRecord output 0dB Input selector -32dBm -32dBm 0dB INVAMP -32dBm 28dB (Gain) RECAMP -4dBm 8 - 6. MIC Playback ae Record output 20dB MICAMP -52dBm -32dBm 0dB Input selector -32dBm 0dB INVAMP -32dBm 28dB (Gain) RECAMP -4dBm KA22296 9. TEST CIRCUIT DOUBLE DECK SYSTEM FOR RADIO CASSETTE 82U 82U 47uF 30 3.3U 22uF NAB - AMP + 1 VT1 29 220U 22uF A B VT2 220U 22uF 0.039uF 82U 0.039uF 82U 47uF 1.8U 28 2 27 3.3U VT3 220U 22uF 3 NAB - AMP + B A VT4 220U 10uF 1.8 U 4 5 6 Voltage Regulator 26 10uF 10U TMON1 TMON2 25 10U X2 X2 VCC S9 100 uF 7 100 uF 1uF INV + AMP - VE1 680U 1uF 8 INPUT SELECTOR 20U 24 VE2 680U 1uF 9 10 10uF 1U 20U VE3 680U 1uF 20U REC - AMP + 20U CCA 10uF 11 VE4 680U 1uF 23 10U TREC1 INV + AMP - INPUT SELECTOR 12 VE5 680U 1uF LEVEL DET CCA 22 20U VE6 680U 1uF 0.47uF 10uF S8 13 14 20U 20U REC + AMP - 21 VM 680U 10U TREC2 MIC + AMP - 20U 1U SWITCH CONTROL 20U 2U 20 10uF 15 16 17 18 19 S1 22U S2 S3 22U S4 22U 10U S5 22U S6 S7 VCC 10U 10U 15U 15U |
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