An12943a

Transcript

DATA SHEET Part No. AN12943A Package Code No. HSOP056-P-0300A SEMICONDUCTOR COMPANY MATSUSHITA ELECTRIC INDUSTRIAL CO., LTD. Publication date: July 2004 SDC00057AEB 1 AN12943A Contents „ Overview …....................................................…………………………………………………………………….. 3 „ Features ………………………………….………………………………………………………………………….. 3 „ Applications ……………………………….………………………………………………………………………….. 3 „ Block Diagram ……………...…………….………………………………………………………………………….. 4 „ Pin Descriptions …………………………..................................………………………………………………….. 5 „ Absolute Maximum Ratings ……………………………………………………………………………………….. 7 „ Operating Supply Voltage Range ………………………………………………………………………………….. 7 „ Electrical Characteristics ……………………………………….………………………………………………….. 8 „ Control Terminal, The Mode Table „ Technical Data ……………………………………………………………………………….. 11 ……………………………….……………....…………………………………………………….. 12 y Circuit diagrams of the input/output part and pin function descriptions y Control sequence at power on/off ………......…………………….……………………………………………… 19 y Power dissipation of package HSOP056-P-0300A y Usage notes .....................................…………… 12 ….................................…….........……………………… 20 ………………………………………........................................................……………………….. 20 y Main characteristics ….…………………….................…………………………………….........……………….. 21 SDC00057AEB 2 AN12943A AN12943A Audio signal processing IC for notebook PC „ Overview Unit: mm AN12943A is an one-chip IC for the stereo speakers which can output 1 W by 8 Ω, headphone amplifiers, line amplifiers and electronic volumes. Since the headphone amplifier is a dual power supply system which uses a DC-DC converter to create the negative power source, an output capacitor is not necessary. Also the AN12943A is built-in power saving on/off function automatically detecting input signal to save the power of speaker amplifier. to „ Features y Speaker amplifier 1 W × 2-channel: 8 Ω, VCC = 5 V y Headphone amplifier Dual power supply system doesn't require output capacitor. y Built-in automatic power saving function. It detects input signals and switches on/off (with the on/off switch for the auto power saving). y Built-in electronic volume and line amplifier HSOP056-P-0300A „ Applications y Notebook PC SDC00057AEB 3 AN12943A „ Block Diagram −10 dBV 1 µF 10 V IN-L-ch. (Line,HP) −9.17 dBV OUT-L-ch. (Line) 4.7 µF 10 V 1.1 times 29 OUT-R-ch. (Line) 4.7 µF 10 V 1.1 times 28 30 27 −9.17 dBV Standby Line STBY 31 mute 1 µF 10 V BEEP_IN 32 Switch B 26 34 + 68 Ω 32 Ω −4 dBV 68 Ω 10 µF 16 V VREF 6 dB Offset cancel 6 dB Power save GND 13 51 −2 dBV 52 4 dBV L-ch. SP out 8 Ω to 16 Ω −2 dBV 53 Timer Switch A 10 µF 16 V 0.47 µF 10 V 0.47 µF 10 V 0.47 µF 10 V Standby Mute 9 Mute 8 14 dB 6 5 3 14 dB −2 dBV 4 dBV R-ch. SP out 8 Ω to 16 Ω −2 dBV VCC_SP 1 1 µF 10 V SP GND 2 VCC_SP 56 0.47 µF 10 V 4 Power save 14 dB GND 7 Save CTL 14 dB 2 200 pF 10 V 10 Signal det. Control 20 kΩ 11 54 55 EVRCTL 10 µF 16 V 12 50 SP GND 15 14 48 49 SPK_MUTE VCC 16 Save CTL 47 Signal automatic detection function on/off BVREF 18 17 Offset cancel VREF (SP) 43 −3 dB (10 V) −13 dBV 44 −3 dB 45 (10 V) To N.C. (Test CTL) 46 charge pump HP_JACK_IN Switch A-1 EVR 19 42 −13 dBV Switch A-2 22 20 40 41 Switch A-3 21 EVR N.C. (Test out) 37 Charge 10 µF 10 V pump 38 39 Switch B-1 23 + 35 −4 dBV Switch B-2 24 36 Headphone −10 dBV GND 25 Timer 33 10 µF 10 V GND 1 µF 10 V IN-R-ch. (Line,HP) 1 µF 10 V Supply voltage 5 V SDC00057AEB 4 AN12943A „ Pin Descriptions Pin No. Pin name Type VCC Description VCC_SP 1 VCC_SP_R 2 SP_OUT_R+ Output Speaker amplifier R-channel positive phase output (+) 3 SP_OUT_R+ Output Speaker amplifier R-channel positive phase output (+) 4 SP_OUT_R− Output Speaker amplifier R-channel negative phase output (−) 5 SP_OUT_R− Output Speaker amplifier R-channel negative phase output (−) 6 GND_SP GND GND_SP R-channel 7 DETECT_CAP Input Demodulation pin for signal automatic detection 8 N.C. N.C. N.C. 9 GND GND GND 10 N.C. N.C. N.C. 11 DETECT_IN Input Signal input for signal automatic detection 12 DAMP_OUT Output 13 OFFSET_HPR Input Offset cancel pin for headphone R-channel 14 OFFSET_HPL Input Offset cancel pin for headphone L-channel 15 N.C. N.C. N.C. 16 VCC VCC VCC 17 Switch A Input Switch A 18 VREF_IN Input VREF 19 EVR_CTL Input EVR control for speaker and headphone 20 BVREF Input Bias in 21 Switch A-1 Output Switch A-1 22 Switch A-2 Output Switch A-2 23 Switch A-3 Output Switch A-3 24 Switch B-1 Output Switch B-1 25 Switch B-2 Output Switch B-2 26 GND GND GND 27 INPUT_R Input R-channel input 28 INPUT_L Input L-channel input 29 LINEOUT_L Output Line L-channel output 30 LINEOUT_R Output Line R-channel output 31 STANDBY Input Standby on/off control 32 BEEP_IN Input Input for beep signal 33 Switch B Input Switch B 34 C1 Output R-channel Signal automatic detection mix amplifier output Capacitor connect pin 1 for charge pump SDC00057AEB 5 AN12943A „ Pin Descriptions (continued) Pin No. Pin name Type GND Description 35 GND 36 C2 37 N.C. N.C. N.C. (Test pin 1) 38 VSS VSS VSS 39 VSS VSS VSS 40 HP_OUT_L Output Headphone amplifier L-channel output 41 HP_OUT_R Output Headphone amplifier R-channel output 42 N.C. N.C. N.C. 43 VREF_SP Input VREF_SP 44 SP_IN_R Input Speaker amplifier R-channel input 45 SP_IN_L Input Speaker amplifier L-channel input 46 N.C. N.C. N.C. (Test pin 1) 47 HP_JACK_IN Input HP_JACK_IN signal input 48 GND GND GND 49 DETECT_ON Input Signal automatic detection on/off control 50 SPK_MUTE Input Speaker power save control 51 GND_SP GND GND_SP L-channel 52 SP_OUT_L− Output Speaker amplifier L-channel negative phase output (−) 53 SP_OUT_L− Output Speaker amplifier L-channel negative phase output (−) 54 SP_OUT_L+ Output Speaker amplifier L-channel positive phase output (+) 55 SP_OUT_L+ Output Speaker amplifier L-channel positive phase output (+) 56 VCC_SP Output VCC GND Capacitor connect pin 2 for charge pump VCC_SP L-channel SDC00057AEB 6 AN12943A „ Absolute Maximum Ratings A No. 1 Parameter Supply voltage Symbol Rating VCC 5.75 VCC_SP 5.75 Unit Note V *1 2 Supply current ICC  A  3 Power dissipation PD 517 mW *2 4 Storage temperature Tstg −55 to +150 ºC *3 5 Operating ambient temperature Topr −20 to +75 ºC *3 Pa  6 7 8 Operating ambient atmospheric pressure Operating constant gravity Operating shock 1.013 × Popr Gopr Sopr 105 ± 0.61 × 105 9 810 m/s2  4 900 2 m/s  Unit Note Note) *1: The values under the condition not exceeding the above absolute maximum ratings and the power dissipation. *2: When using this IC, referring to „ Technical Data, y Power dissipation of package HSOP056-P-0300A. Be sure to use the IC so that the power dissipation of the IC without heat sink will not exceed 517 mW at Ta = 75ºC. *3: Except for the operating ambient temperature and storage temperature, all ratings are for Ta = 25ºC. „ Operating Supply Voltage Range Parameter Operating supply voltage range Symbol Range VCC 4.50 to 5.50 VCC_SP 4.50 to 5.50 V  * Note) *: The values under the condition not exceeding the above absolute maximum ratings and the power dissipation. SDC00057AEB 7 AN12943A „ Electrical Characteristics at VCC = 5.0 V, VCC_SP = 5.0 V Note) Ta = 25°C±2°C unless otherwise specified. B No. Parameter Symbol Limits Test circuits Conditions Unit Note 100 µA  29.0 38.0 mA   15.0 25.0 mA  21.0 30.0 39.0 mA   55 100 µA  19.0 28.0 37.0 mA   16 100 µA   17 100 µA  min typ max  50 20.0 Circuit current 1 Circuit current 1A at non-signal (VCC_SP) IT1A 1 2 Circuit current 2A at non-signal (VCC) IT2A 1 3 Circuit current 1B at non-signal (VCC_SP) IT1B 1 4 Circuit current 2B at non-signal (VCC) IT2B 1 5 Circuit current 1C at non-signal (VCC_SP) IT1C 1 6 Circuit current 2C at non-signal (VCC) IT2C 1 7 Standby current 1 at non-signal (VCC_SP) IST1 1 8 Standby current 2 at non-signal (VCC) IST2 1 VCC = 5.00 V, at non-signal, at automatic distinction: on VCC = 5.00 V, at non-signal, SP power save: off, at automatic distinction: off VCC = 5.00 V, at non-signal, SP power save: on, at automatic distinction: off VCC = 5.00 V, at standby mode Speaker amplifier (RL = 8 Ω): Speaker_input (pin 44, pin 45) → Speaker_output (pin 2 to pin 5, pin 52 to pin 55) 9 Output level L-channel VSPL 1 10 Output level R-channel VSPR 1 11 Output distortion L-channel THSL 1 12 Output distortion R-channel THSR 1 13 Maximum output electric power L-channel VMAXSL 1 14 Maximum output electric power R-channel VMAXSR 1 15 Output noise L-channel VNSL 1 16 Output noise R-channel VNSR 1 17 Channel balance CHBS 1 18 Cross talk in L-channel CTLSLR 1 19 Cross talk in R-channel CTLSRL 1 VIN = −13 dBV, f = 1 kHz, RL = 8 Ω 2.0 4.0 6.0 dBV  2.0 4.0 6.0 dBV  VIN = −13 dBV, f = 1 kHz, RL = 8 Ω, to THD fifth  0.04 0.5 %   0.04 0.5 %  0.7 0.81  W  0.7 0.81  W   −89 −67 dBV   −89 −67 dBV  −1 0 1 dB  70 90  dB  70 90  dB  VIN = 1 kHz, THD = 1%, RL = 8 Ω Rg = 1 kΩ, RL = 8 Ω, A curve filter VIN = −13 dBV, f = 1 kHz, RL = 8 Ω VIN = −13 dBV, f = 1 kHz, RL = 8 Ω, A curve filter Headphone amplifier (RL = 32 Ω): L-channel, R-channel_input (pin 28, pin 27) → Headphone_output (pin 40, pin 41) 20 Output level L-channel VHPL 1 21 Output level R-channel VHPR 1 22 Channel balance CHBH 1 VIN = −10 dBV, RL = 100 Ω Vol = 3.3 V (max), f = 1 kHz VIN = −10 dBV, RL = 100 Ω Vol = 3.3 V (max), f = 1 kHz R-ch./L-ch. difference SDC00057AEB −5.0 −4.0 −3.0 dBV  −5.0 −4.0 −3.0 dBV  −1.0 0.0 1.0 dB  8 AN12943A „ Electrical Characteristics at VCC = 5.0 V, VCC_SP = 5.0 V (continued) Note) Ta = 25°C±2°C unless otherwise specified. B No. Parameter Symbol Limits Test circuits Unit Conditions min typ Note max Headphone Amplifier (RL = 32 Ω) (continued): L-channel, R-channel_input (pin 28, pin 27) → Headphone_output (pin 40, pin 41) 23 Output distortion L-channel THHL 1 24 Output distortion R-channel THHR 1 25 Maximum input level L-channel VMAHIL 1 26 Maximum input level R-channel VMAHIR 1 27 Maximum output level L-channel VMAHOL 1 28 Maximum output level R-channel VMAHOR 1 29 Output noise L-channel VNHL 1 VOUT = −14 dBV, RL = 100 Ω Vol = 3.3 V (max), f = 1 kHz to THD fifth THD = 1%, RL = 100 Ω Vol = 1.65 V (typ), f = 1 kHz THD = 1%, RL = 100 Ω Vol = 3.3 V (max), f = 1 kHz Rg = 1 kΩ, A curve filter 30 Output noise R-channel VNHR 1 31 Cross talk in L-channel CTLHLR 1 32 Cross talk in R-channel CTLHRL 1 33 Beep output level L-channel BEHL 1 34 Beep output level R-channel BEHR 1 VIN = −10 dBV, RL = 100 Ω f = 10 kHz, A curve filter VIN = 3.3 VPP, RL = 100 Ω 1 cycle = 1 ms  0.03 0.1 %   0.03 0.1 %  0.0 4.7  dBV  0.0 4.7  dBV  0.0 3.4  dBV  0.0 3.4  dBV   −94 −79 dBV   −94 −79 dBV  60 79  dB  60 79  dB  0.28 0.58  VPP  0.28 0.58  VPP  −32.5 −30.0 −27.5 dBV  −32.5 −30.0 −27.5 dBV  Volume part: L-channel, R-channel_input (pin 28, pin 27) → Headphone_output (pin 40, pin 41) 35 Medium voltage gain L-channel VOLL 1 36 Medium voltage gain R-channel VOLR 1 37 Channel balance at the time of the medium gain VCHB 1 38 Volume maximum attenuation quantity L-channel VOLNL 1 39 Volume maximum attenuation quantity R-channel VOLNR 1 VIN = −20 dBV, f = 1 kHz, Vol = 1.65 V (typ) VIN = −20 dBV, f = 1 kHz, Vol = 1.65 V (typ) R-ch./L-ch. difference −2.0 0.0 2.0 dB  70 90  dB  70 90  dB  −10.0 −9.2 −8.4 dBV  −10.0 −9.2 −8.4 dBV  − 0.8 0.0 0.8 dB  VIN = −10 dBV, RL = 10 kΩ, f = 1 kHz, to THD fifth  0.003 0.03 %   0.003 0.03 %  THD = 1%, RL = 10 kΩ f = 1 kHz 0.0 4.1  dBV  0.0 4.1  dBV   −105 −87 dBV   −105 −87 dBV  VIN = −10 dBV, f = 1 kHz, Vol = 0.0 V (min), A curve filter Line amplifier part: L-channel, R-channel_input (pin 28, pin 27) → Line_output (pin 29, pin 30) 40 Output level L-channel VHLL 1 41 Output level R-channel VHLR 1 42 Channel balance CHBL 1 43 Output distortion L-channel THLL 1 44 Output distortion R-channel THLR 1 45 Maximum output level L-channel VMALL5 1 46 Maximum output level R-channel VMALR5 1 47 Output noise L-channel VNLL 1 VIN = −10 dBV, RL = 10 kΩ, f = 1 kHz VIN = −10 dBV, RL = 10 kΩ, f = 1 kHz, R-ch./L-ch. difference Rg = 1 kΩ, A curve filter 48 Output noise R-channel VNLR 1 SDC00057AEB 9 AN12943A „ Electrical Characteristics at VCC = 5.0 V, VCC_SP = 5.0 V (continued) Note) Ta = 25°C±2°C unless otherwise specified. B No. Parameter Symbol Limits Test circuits Conditions min typ Unit Note max Line amplifier part (continued): L-channel, R-channel_input (pin 28, pin 27) → Line_output (pin 29, pin 30) 49 Cross talk in L-channel CTLLLR 1 50 Cross talk in R-channel CTLLRL 1 VIN = −10 dBV, RL = 10 kΩ f = 10 kHz, A curve filter 60 88  dB  60 88  dB  Automatic signal detection part: L-channel, R-channel_input (pin 28, pin 27) → Signal detection preamplifier output (pin 12) 51 Preamplifier output voltage level L-channel entry VSDTL 1 52 Preamplifier output voltage level R-channel entry VSDTR 1 53 Signal detection limit entry voltage level L-channel VSDTTHL 1 54 Signal detection limit entry voltage level R-channel VSDTTHR 1 SP output DC offset voltage L-channel VDCSPL 1 56 SP output DC offset voltage R-channel VDCSPR 1 57 Output at SP power save L-channel VPSPPSL 1 58 Output at SP power save R-channel VPSPPSR 59 Signal detection part Preamplifier output noise −13 −10 −7 dBV  −13 −10 −7 dBV  −70 −65 −60 dBV  −70 −65 −60 dBV  −112 0 112 mV  −112 0 112 mV   −114 −70 dBV  1 VIN = −13 dBV, f = 1 kHz, RL = 8 Ω, A curve filter  −114 −70 dBV  VSDTLO 1 At non-signal, A curve filter  −62 −44 dBV  VIN = −49 dBV, f = 1 kHz Vol = 1.65 V (typ) VIN = 1 kHz Vol = 1.65 V (typ) Other part 55 DC voltage bitween positive and opposite at non-signal Switch switching-over voltage level 60 Standby on STON  GND  0.8 V  61 Standby off STOF  2.0  3.6 V  62 SPK mute on SPMON  GND  0.8 V  63 SPK mute off SPMOF  2.0  5.5 V  64 Headphone jack on HPJON  GND  0.8 V  65 Headphone jack off HPJOF  2.0  5.5 V  66 Signal automatic detection feature on ATON  GND  0.8 V  67 Signal automatic detection feature off ATOF  2.0  5.5 V  68 Switch A off CMUOF  GND  0.8 V  69 Switch A on CMUON  2.0  5.5 V  70 Switch B off DMUOF  GND  0.8 V  71 Switch B on DMUON  2.0  5.5 V  SDC00057AEB 10 AN12943A „ Control Terminal, The Mode Table Note) The holding range of control voltage is shown in B No. 60 to B No. 71 of „ Electrical Characteristics. Voltage Pin No. Description Remarks Low High Switch A on/off Off On  31 Standby on/off STB on (LINE MUTE on) (HP SAVE on) (HP MUTE on) STB off (LINE MUTE off) (HP SAVE off) (HP MUTE off)  33 Switch B on/off Off On  49 The signal automatic detection feature on/off Automatic distinction: off Automatic distinction: on  Pin No. Description 17 Voltage 47 50 HP JACK SPK MUTE Both pin 47 and pin 50 = High Either pin 47 or pin 50 = Low SPK power save off (SP on) SPK power save on (SP off) SDC00057AEB Remarks It has priority over power saving by pin 47 and pin 50 more than an automatic detection. 11 AN12943A „ Technical Data y Circuit diagrams of the input/output part and pin function descriptions Note) The characteristics listed below are reference values based on the IC design and are not guaranteed. Pin No. Waveform and voltage Inner circuit Impedance Description  Power supply pins specifically designed for speaker amplifiers. • Pin 1 for R-channel. • Pin 56 for L-channel. Because the big electric current flows, it is desirable to separate from the VCC line to the other power supply pins on the board pattern. VCC_SP 1, 56  DC: 5.0 V 2, 3, 4, 5, 52, 53, 54, 55 Speaker output Pin 2, pin 3 Pin 54, pin 55 Positive phase VCC_SP (5.0 V) 20k Pin 4, pin 5 Pin 52, pin 53 Negative phase Pin 2 3 54 55 Pin 4 5 52 53 4k DC: 2.20 V AC: 4 dBV Output pins of speaker amplifiers. It becomes BTL output. • Pin 2, pin 3 for R-channel positive phase output • Pin 4, pin 5 for R-channel negative phase output The output • Pin 54, pin 55 for L-channel positive impedance: Equal phase output to or less than 1 Ω • Pin 52, pin 53 for L-channel negative phase output To reduce voltage loss caused by the wire resistance in maximum output, it makes output 2 terminals. When the speaker amplifiers save power, DC voltage is also kept. It is GND pin for the speaker amplifier. • Pin 6 is for R-channel. GND_SP • Pin 51 is for L-channel. 6, 51   DC: 0.0 V VREG (4.5 V) Audio automatic detection detection pin: 7 8, 10, 37, 46 Signal nothing DC: 0.0 V Signal's there being DC: 2.0 V 1k 7 100k VSS (−2.6 V) Because the big electric current flows, it is desirable to separate from the GND line to the other GND pin on the board pattern. Also, it isn't connected with the substrate potential in the IC. Signal less time: Constant current source Signal's there being: The output impedance: About 1 kΩ It connects a condenser for the peak detection. It is the circuit which detects a peak after rectifying the audio signal of the audio signal automatic detection circuit in both waves. By changing a capacity value, the time which the power saving depends on in case of the switchover which is without signal with signal's there being can be changed.   NC  SDC00057AEB 12 AN12943A „ Technical Data (continued) y Circuit diagrams of the input/output part and pin function descriptions (continued) Note) The characteristics listed below are reference values based on the IC design and are not guaranteed. Pin No. Waveform and voltage 9, 26, 48 GND Inner circuit Impedance   DC: 0.0 V Signal input for signal automatic detection It is the GND pins of the signal system. It isn't connected with the substrate potential in the IC. 11 It is the signal input pin for signal The entry automatic detection. It is possible to impedance: About adjust in the direction lowers a gain by 20 kΩ adding external resistance. 11 DC: 2.25 V AC: −10 dBV Description 20k VSS (−2.6 V) VREF (2.25 V) VREG (4.5 V) The signal detection system preamplifier output pin 12 12 The output It is the output pin of the signal detection impedance: About system preamplifier. 10 Ω DC: 2.25 V AC: −10 dBV VSS (−2.6 V) VREG (4.5 V) 13, 14 Offset cancellation C pin Pin 13 14 It is the condenser connection pin of the The entry offset cancellation circuit to remove the impedance: About DC offset. As the principle, it composes high pass filter by entry impedance "R" 100 kΩ and connection condenser "C". 100k DC: 2.25 V VSS (−2.6 V) NC 15, 42   SDC00057AEB Pin 15, pin 42 connect with the lead frame of the IC. Also, it is connected with the substrate potential in the IC. Please don't connect with the GND line on the board pattern. 13 AN12943A „ Technical Data (continued) y Circuit diagrams of the input/output part and pin function descriptions (continued) Note) The characteristics listed below are reference values based on the IC design and are not guaranteed. Pin No. Waveform and voltage Inner circuit Impedance Description  It is the power supply (VCC) pin to supply the regulator circuit to create the inner power supply VREG with the voltage. It is separating from VCC_SP of pin 1, pin 56 fully inside. It is desirable to separate as far as it finishes coming out about the P board pattern, too. VCC  16 DC: 5.0 V Switch A/B on/off 100k Pin 17 33 It change the switch A, B on/off. The entry impedance: About • High: On 100 kΩ • Low: Off 17, 33 300k DC: 0 V (at Open) VSS (−2.6 V) VCC (5 V) VREF 550k 18 18 DC: 2.25 V 450k With the pin to fix the bias voltage (the operation point) of the system which the The entry inner power supply (VREG) works, it impedance: About becomes 1/2 VREG (V). To remove noise, 250 kΩ it connects a condenser with the interval of GND. VSS (−2.6 V) 100k 19 EVR control for SP and HP 19 The entry impedance: The high impedance It is the pin which controls EVR for speaker amplifier and Headphone amplifier. The holding range with control voltage is 0 V to 3.3 V. The entry impedance: The high impedance It is the input pin of DC voltage for switch A-1, A-2, A-3, B-1, B-2 output. DC:  V VSS (−2.6 V) VREG (4.5 V) BVREF 20 20 DC:  V VSS (−2.6 V) SDC00057AEB 14 AN12943A „ Technical Data (continued) y Circuit diagrams of the input/output part and pin function descriptions (continued) Note) The characteristics listed below are reference values based on the IC design and are not guaranteed. Pin No. Waveform and voltage 21, 22, 23, Switch A-1 Switch A-2 Switch A-3 24, 25 Switch B-1 Switch B-2 Inner circuit Impedance Pin 21 22 23 24 25 VREG (4.5 V) DC:  V The output impedance: Equal It is the output pin of DC voltage. It outputs pin 20 (BVREF) input voltage. to or less than about 10 Ω VSS (−2.6 V) Pin 27 28 VREG (4.5 V) Audio signal input 50k 14.6k 27, 28 DC: 2.25 V AC: −10 dBV Description 25k VSS (−2.6 V) It enters a main audio signal. The entry impedance: About • Pin 27: R-channel entry 25 kΩ • Pin 28: L-channel entry 35.4k VREF (2.25 V) VCC (5.0 V) Line out 29, 30 17.8k AC: −9.17 dBV DC: 2.25 V Pin 29 30 The output It is the output pin of the line amplifier. impedance: Equal • Pin 29: L-channel output to or less than • Pin 30: R-channel output about 10 Ω 32.2k VSS (−2.6 V) VREG (4.5 V) 100k Standby on/off changing SW 250k 100k 31 DC: 2.0 V 200k 300k VSS (−2.6 V) 31 The range under about 1.5 V. The entry impedance: About 210 kΩ The range over about 1.5 V. The entry impedance: About 68 kΩ SDC00057AEB It changes whether or not it makes this IC an operation condition or whether or not it makes it a standby. • Low: Standby • High: The operation condition In that the power changes a connected condition to the standby, the circuit electric current can be almost made 0. 15 AN12943A „ Technical Data (continued) y Circuit diagrams of the input/output part and pin function descriptions (continued) Note) The characteristics listed below are reference values based on the IC design and are not guaranteed. Pin No. Waveform and voltage Inner circuit Impedance 200 32 Beep entry It is the entry pin to enter beep signal. The entry The same signal is entered both by impedance: About L-channel and R-channel with the beep signal mix amplifier of the following 200 Ω paragraph. 32 DC: 2.25 V AC: 3.3 VPP Description 7.5k VSS (−2.6 V) 20k VREF (2.25 V) VREGDIG (2.7 V) Capacitor connect pin 1 for charge pump GND 34 The output impedance: Equal It is the condenser connection pin for to or less than charge pump. about 10 Ω DC:  V 34 GND  35  DC: 0.0 V It is GND pin for charge pump. It isn't connected with other GND pin in the IC. 36 Capacitor connect pin 2 for charge pump The output impedance: Equal It is the condenser connection pin for to or less than charge pump. about 10 Ω 36 DC:  V VSS (−2.6 V) VSS 38, 39   DC: −2.6 V SDC00057AEB It is the inner power (VSS) pin to supply the HP amplifier with the voltage. Also, it is connected with the substrate potential in the IC. 16 AN12943A „ Technical Data (continued) y Circuit diagrams of the input/output part and pin function descriptions (continued) Note) The characteristics listed below are reference values based on the IC design and are not guaranteed. Pin No. Waveform and voltage Inner circuit Impedance Description The output impedance: Equal to or less than about 1 Ω It is an output pin for the headphone amplifier. The signal which was adjusted in the volume in EVR can be output by the low impedance. VCC (5.0 V) 40, 41 Output terminal for the HP amplifier 20k DC: 0 V AC: −4 dBV Pin 40 41 10k VSS (−2.6 V) VCC (5.0 V) VREF (SP) The entry It is the standard voltage pin to fix the impedance: About DC bias of the speaker output. It connects a condenser to remove a ripple. 250 kΩ 500k 43 43 DC: 2.20 V 500k VSS (−2.6 V) Pin 45 44 5.8k Speaker amplifier entry 44, 45 14.2k DC: 2.25 V AC: −13 dBV VSS (−2.6 V) VREF (2.25 V) 100k HP_JACK_IN signal input pin 47 47 DC:  VSS (−2.6 V) 300k It is the voice input pins of the speaker amplifier. To make offset voltage in power saving on/off changing by the The entry speaker amplifier little, it combines impedance: About capacity. 20 kΩ ( It makes POP noise small ). • Pin 44: R-channel speaker entry • Pin 45: L-channel speaker entry The range under about 1.5 V. The entry impedance: The high impedance The range over about 1.5 V. The entry impedance: About 100 kΩ SDC00057AEB It is the pin which controls power saving by the speaker amplifier. At the time of on in addition to the control in case of automatic distinction function off, too, power saving on by pin 47, pin 50 has priority over. 17 AN12943A „ Technical Data (continued) y Circuit diagrams of the input/output part and pin function descriptions (continued) Note) The characteristics listed below are reference values based on the IC design and are not guaranteed. Pin No. 49 Waveform and voltage Signal automatic detection function on/off control pin DC:  Inner circuit Impedance VREG (4.5 V) 10k 275k 100k The entry impedance: The high impedance 49 55k 10k Description We change an audio signal automatic detection function in on/off. In case of automatic detection off, it controls power saving by speaker with the manual with the power saving on/off pin. • High: Function on • Low: Function off VSS (−2.6 V) 50 SP amplifier power saving on/off control pin DC:  100k 50 VSS (−2.6 V) 300k The range under about 1.5 V. The entry impedance: The high impedance The range over about 1.5 V. The entry impedance: About 100 kΩ SDC00057AEB It is the pin which controls power saving by the speaker amplifier. At the time of on in addition to the control in case of automatic distinction function off, too, power saving on by pin 47, pin 50 has priority over. 18 AN12943A „ Technical Data (continued) y Control sequence at power on/off At power on/off, as for the timing of each control pin, it much more recommends a procedure below the purpose of the pop noise measure in changing. Moreover, this IC builds in a charge pump circuit and constitutes the substrate potential in IC. In order for substrate potential to be in a high impedance state and to prevent unusual operation before starting of a power supply, please do not impress voltage to each mode control pin. Control timing Power on VCC_SP (Pin 1, pin 56) Power off As for the occurrence of time-lag between VCC -on and VCC_SP-on, no problem. VCC (Pin 16) Standby control (Pin 31) Please carry out standby release after a power supply on for the measure aganist a pop noise. Speaker power save control (Pin 47, pin 50) As for the occurrence of time-lag between VCC -off and VCC_SPoff, no problem. Please carry out standby on after a power supply off for the measure aganist a pop noise. Each mode control Please rise to simultaneous with a power supply on, or the back. Please bring down to simultaneous with a power supply off, or a front. Note) The characteristics listed above are reference values based on the IC design and are not guaranteed. SDC00057AEB 19 AN12943A „ Technical Data (continued) y Power dissipation of package HSOP056-P-0300A PD  Ta 5.000 4.280 Power dissipation PD (W) 4.000 3.000 Mounted on standard board Nonsoldering radiation plate (50 × 50 × 0.8 mm3) Rth(j-a) = 79.5°C/W 2.000 Mounted on four layers of standard board Soldering radiation plate (50 × 50 × 0.8 mm3) Rth(j-a) = 29.2°C/W 1.572 1.000 0.862 Independent IC without a heat sink Rth(j-a) = 144.9°C/W 0.000 0 25 50 75 100 125 150 Ambient temperature Ta (°C) Note) The characteristics listed above are reference values based on the IC design and are not guaranteed. y Usage notes 1. Please carry out the thermal design with sufficient margin such that the power dissipation will not be exceeded, based on the conditions of power supply, load and surrounding temperature. Although indicated also in the column of the maximum rating, the maximum rating becomes an instant and the marginal value which must not exceed. It sufficiently evaluates, and I use-wish-do so that it may not exceed certainly. Moreover, don't impress neither voltage nor current to pin which is not indicated. It may destroy in both cases. 2. Please pay attention in the pattern layout in order to prevent damage due to short circuit between pins. In addition, for the pin configuration, please refer to „ Pin Descriptions. 3. Please absolutely do not mount the LSI in the reverse direction on to the printed-circuit-board. It might be damaged when the electricity is turned on. 4. Please do a visual inspection on the printed-circuit-board before turning on the power supply, otherwise damage might happen due to problems such as a solder-bridge between the pins of the semiconductor device. Also perform a full technical verification on the assembly quality, because the same damage possibly can happen due to conductive substances, such as solder ball, that adhere to the LSI during transportation. 5. Please take notice in the use of this product that it might break or occasionally smoke when an abnormal state occurs such as output pin, pin 34 and pin 36 (capacitor connect pin 1, 2 for charge pump), pin 38 and pin 39 (VSS) − power supply pin short, output pin, pin 34 and pin 36, pin 38 and pin 39 − GND short, or output-to-output-pin short (load short), pin 34 − pin 36 short. And, safety measures such as an installation of fuses are recommended because the extent of the above-mentioned damage and smoke emission will depend on the current capability of the power supply. 6. When using the LSI for model deployment or new products, perform fully the safety verification including the long-turm reliability for each product. SDC00057AEB 20 AN12943A „ Technical Data (continued) y Main characteristics 1) Speaker amplifier VCC = 5.0 V, VCC_SP = 5.0 V, freq = 1 kHz, EVR = 3.3 V, LINE VCC = 5.0 V, VCC_SP = 5.0 V, freq = 1 kHz, EVR = 3.3 V, LINE input (pin 27), 24 kΩ-ATT, Automatic detection on, HPF: 400 Hz, LPF: 30 kHz input (pin 28), 24 kΩ-ATT, Automatic detection on, HPF: 400 Hz, LPF: 30 kHz SP入出力特性-8Ω Speaker I/O characteristics − 8 Ω SP入出力特性-8Ω Speaker I/O characteristics − 8 Ω SP output level SP出力レベル(Lch→Lch) (L-channel → L-channel) SP output level (Pin 52 to pin 55) (dBV) SP出力レベル(52-55pin) [ｄBV] SP出力レベル(2-5pin) [ｄBV] SP output level (Pin 2 to pin 5) (dBV) SP output level SP出力レベル(Rch→Rch) (R-channel → R-channel) 10 0 -10 -20 -30 -40 -30 -20 -10 0 10 0 -10 -20 -30 -40 入力ﾚﾍﾞﾙ(Rch-27pin) Input level (R-channel - Pin[ｄBV] 27) (dBV) -30 -20 -10 入力ﾚﾍﾞﾙ(Lch-28pin) Input level (L-channel - Pin[ｄBV] 28) (dBV) 0 VCC = 5.0 V, VCC_SP = 5.0 V, freq = 1 kHz, EVR = 3.3 V, LINE VCC = 5.0 V, VCC_SP = 5.0 V, freq = 1 kHz, EVR = 3.3 V, LINE input (pin 27), 24 kΩ-ATT, Automatic detection on, HPF: 400 Hz, LPF: 30 kHz input (pin 28), 24 kΩ-ATT, Automatic detection on, HPF: 400 Hz, LPF: 30 kHz Speaker I/O characteristics − 8 Ω SP入出力特性-8Ω SP output distortion (Pin 52 to pin 55) THD (%) SP出力歪率(52-55pin)　THD　[%] SP出力歪率(2-5pin)　THD　[%] SP output distortion (Pin 2 to pin 5) THD (%) SP入出力特性-8Ω Speaker I/O characteristics − 8 Ω SP output distortion SP出力歪率(Rch→Rch) (R-channel → R-channel) 10 1 0.1 0.01 -40 -30 -20 -10 入力ﾚﾍﾞﾙ(Rch-27pin) Input level (R-channel - Pin[ｄBV] 27) (dBV) 0 SP output distortion SP出力歪率(Lch→Lch) (L-channel → L-channel) 10 1 0.1 0.01 -40 -30 -20 -10 0 入力ﾚﾍﾞﾙ(Lch-28pin) Input level (L-channel - Pin[ｄBV] 28) (dBV) VCC = 5.0 V, VCC_SP = 5.0 V, VIN = −10 dBV, EVR = 3.3 V, LINE VCC = 5.0 V, VCC_SP = 5.0 V, VIN = −10 dBV, EVR = 3.3 V, LINE input (pin 27), 24 kΩ-ATT, Automatic detection on input (pin 28), 24 kΩ-ATT, Automatic detection on SP出力周波数特性-8Ω Speaker output frequency characteristics − 8 Ω SP出力周波数特性-8Ω Speaker output frequency characteristics − 8 Ω SP output level SP出力レベル(Lch→Lch) (L-channel → L-channel) 10 10 SPSP出力レベル(52-55pin) output level (Pin 52 to[ｄBV] pin 55) (dBV) SP output level (Pin 2 to pin 5) (dBV) SP出力レベル(2-5pin)[ｄBV] SP output level SP出力レベル(Rch→Rch) (R-channel → R-channel) 8 8 6 6 4 4 2 2 0 0.01 0.1 1 10 Input frequency (R-channel - Pin 27) (kHz) 入力周波数(Rch-27pin)　[kHz] 100 0 0.01 0.1 1 10 100 入力周波数(Lch-28pin)　[kHz] Input frequency (L-channel - Pin 28) (kHz) SDC00057AEB 21 AN12943A „ Technical Data (continued) y Main characteristics (continued) 1) Speaker amplifier (continued) VCC = 5.0 V, VCC_SP = 5.0 V, VIN = −10 dBV, EVR = 3.3 V, LINE VCC = 5.0 V, VCC_SP = 5.0 V, VIN = −10 dBV, EVR = 3.3 V, LINE input (pin 27), 24 kΩ-ATT, Automatic detection on, LPF: 30 kHz (20 kHz to 1 kHz), LPF: 80 kHz (2 kHz to 10 kHz) input (pin 28), 24 kΩ-ATT, Automatic detection on, LPF: 30 kHz (20 kHz to 1 kHz), LPF: 80 kHz (2 kHz to 10 kHz) Speaker output frequency characteristics − 8 Ω SP出力周波数特性-8Ω SP output distortion (Pin 52 to pin 55) THD (%) SP出力歪率(52-55pin)　THD　[%] SP出力歪率(2-5pin)　THD　[%] SP output distortion (Pin 2 to pin 5) THD (%) SP出力周波数特性-8Ω Speaker output frequency characteristics − 8 Ω SP output distortion SP出力歪率(Rch→Rch) (R-channel → R-channel) 10 1 0.1 0.01 0.01 0.1 1 10 入力周波数(Rch-27pin)　[kHz] Input frequency (R-channel - Pin 27) (kHz) 100 SP output distortion SP出力歪率(Lch→Lch) (L-channel → L-channel) 10 1 0.1 0.01 0.01 0.1 1 10 100 入力周波数(Lch-28pin)　[kHz] Input frequency (L-channel - Pin 28) (kHz) input (pin 27), 24 kΩ-ATT, Automatic detection on, 30 kHz: LPF SP-L/RSP-L/Rクロストーク周波数特性-8Ω cross talk frequency characteristics − 8 Ω SP output cross talk SP出力クロストーク(Lch→Rch) (L-channel → R-channel) (dB)〔dB〕 50 60 70 80 90 0.01 0.1 1 10 入力周波数(Lch-28pin)　[kHz] Input frequency (L-channel - Pin 28) (kHz) 100 SDC00057AEB SP出力クロストーク(Rch→Lch)　[ｄB] SP output cross talk (R-channel → L-channel) (dB) VCC = 5.0 V, VCC_SP = 5.0 V, VIN = −10 dBV, EVR = 3.3 V, LINE input (pin 28), 24 kΩ-ATT, Automatic detection on, 30 kHz: LPF SP output SP出力クロストーク(Lch→Rch)　[ｄB] cross talk (L-channel → R-channel) (dB) VCC = 5.0 V, VCC_SP = 5.0 V, VIN = −10 dBV, EVR = 3.3 V, LINE SP-L/RSP-L/Rクロストーク周波数特性-8Ω cross talk frequency characteristics − 8 Ω SP output cross talk SP出力クロストーク(Rch→Lch) (R-channel → L-channel) (dB)〔dB〕 50 60 70 80 90 0.01 0.1 1 10 100 入力周波数(Rch-27pin)　[kHz] Input frequency (R-channel - Pin 27) (kHz) 22 AN12943A „ Technical Data (continued) y Main characteristics (continued) 2) Headphone amplifier VCC = 5.0 V, VCC_SP = 5.0 V, freq = 1 kHz, Rout = 100 Ω, EVR = 3.3 V, Automatic detection on, HPF: 400 Hz, LPF: 30 kHz 10 0 -10 -20 -30 -30 -20 -10 0 入力レベル(27pin) Input level (Pin 27)[ｄBV] (dBV) Headphone amplifier I/O characteristics - EVR = max (Single-channel input) HPアンプ入出力特性-EVR=max (片ch入力) HP amplifier output (dBV) HPアンプ出力[dBV](Lch→Lch) (L-channel → L-channel) HP amplifier output (dBV) HPアンプ出力[dBV](Rch→Rch) (R-channel → R-channel) HPアンプ出力(40pin)レベル[ｄBV] HP amplifier output (Pin 40) level (dBV) HP amplifier output (Pin 41) level (dBV) HPアンプ出力(41pin)レベル[ｄBV] Headphone amplifier I/O characteristics - EVR = max (Single-channel input) HPアンプ入出力特性-EVR=max (片ch入力) 10 0 -10 -20 -30 -30 10 -20 -10 入力レベル(28pin) Input level (Pin 28)[ｄBV] (dBV) 0 10 VCC = 5.0 V, VCC_SP = 5.0 V, freq = 1 kHz, Rout = 100 Ω, EVR = 3.3 V, Automatic detection on, HPF: 400 Hz, LPF: 30 kHz Headphone amplifier I/O distortion characteristics - EVR =(片ch入力) max (Single-channel input) HPアンプ入出力歪率特性-EVR=max Headphone amplifier I/O distortion characteristics - EVR =(片ch入力) max (Single-channel input) HPアンプ入出力歪率特性-EVR=max HP amplifier output distortion (%) HPアンプ出力歪率[%](Lch→Lch) (L-channel → L-channel) HP amplifier output (Pin 40) distortion HPアンプ出力(40pin)歪率 THD [%]THD (%) HP amplifier output (Pin 41) distortion HPアンプ出力(41pin)歪率 THD [%]THD (%) HP amplifier output distortion (%) HPアンプ出力歪率[%](Rch→Rch) (R-channel → R-channel) 10 1 0.1 0.01 -30 -20 -10 0 入力レベル(27pin) Input level (Pin 27)[ｄBV] (dBV) 10 10 1 0.1 0.01 -30 -20 -10 0 10 入力レベル(28pin) Input level (Pin 28)[ｄBV] (dBV) VCC = 5.0 V, VCC_SP = 5.0 V, VIN = −10 dBV, Rout = 100 Ω, EVR = 3.3 V, Automatic detection on -2 -3 -4 -5 -6 0.01 0.1 1 10 [kHz] Input入力周波数(27pin) frequency (Pin 27) (kHz) Headphone amplifier frequency characteristics - EVR(片ch入力) = max (Single-channel input) HPアンプ周波数特性-EVR=max HP amplifier output (dBV) HPアンプ出力[dBV](Lch→Lch) (L-channel → L-channel) HPアンプ出力(40pin)レベル[ｄBV] HP amplifier output (Pin 40) level (dBV) HP amplifier output (Pin 41) level (dBV) HPアンプ出力(41pin)レベル[ｄBV] Headphone amplifier frequency characteristics - EVR (片ch入力) = max (Single-channel input) HPアンプ周波数特性-EVR=max HP amplifier output (dBV) HPアンプ出力[dBV](Rch→Rch) (R-channel → R-channel) 100 -2 -3 -4 -5 -6 0.01 0.1 1 10 100 入力周波数(28pin) [kHz] Input frequency (Pin 28) (kHz) SDC00057AEB 23 AN12943A „ Technical Data (continued) y Main characteristics (continued) 2) Headphone amplifier (continued) VCC = 5.0 V, VCC_SP = 5.0 V, VIN = −10 dBV, Rout = 100 Ω, EVR = 3.3 V, Automatic detection on, LPF: 30 kHz (20 kHz to 1 kHz), LPF: 80 kHz (2 kHz to 10 kHz) 10 1 0.1 0.01 0.01 0.1 1 10 [kHz] Input入力周波数(27pin) frequency (Pin 27) (kHz) 100 Headphone amplifier frequency characteristics - EVR(片ch入力) = max (Single-channel input) HPアンプ周波数特性-EVR=max HP amplifier output distortion (%) HPアンプ出力歪率[%](Lch→Lch) (L-channel → L-channel) HPアンプ出力(40pin)歪率 THD [%] THD (%) HP amplifier output (Pin 40) distortion HP amplifier output (Pin 41) distortion HPアンプ出力(41pin)歪率 THD [%] THD (%) Headphone amplifier frequency characteristics - EVR = max (Single-channel input) HPアンプ周波数特性-EVR=max (片ch入力) HP amplifier output distortion (%) HPアンプ出力歪率[%](Rch→Rch) (R-channel → R-channel) 10 1 0.1 0.01 0.01 0.1 1 10 100 Input入力周波数(28pin) frequency (Pin 28) (kHz) [kHz] VCC = 5.0 V, VCC_SP = 5.0 V, VIN = −10 dBV, EVR = 3.3 V, Rout = 100 Ω, Automatic detection on, 30 kHz: LPF Headphone amplifier: Cross talk - EVR = max (L-channel → R-channel) HPアンプ：クロストーク-EVR=max　(Lch→Rch) HP cross talk (dB) HPクロストーク[dB](Rch→Lch) (R-channel → L-channel) 50 50 60 60 Cross talk (dB) クロストーク[ｄB] Cross talk (dB) クロストーク[ｄB] Headphone amplifier: Cross talk - EVR = max (L-channel → R-channel) HPアンプ：クロストーク-EVR=max　(Lch→Rch) HP cross talk (dB) HPクロストーク[dB](Lch→Rch) (L-channel → R-channel) 70 80 80 90 90 100 0.01 70 0.1 1 10 入力周波数 [kHz] Input frequency (kHz) 100 0.01 100 0.1 1 10 100 入力周波数 [kHz] Input frequency (kHz) SDC00057AEB 24 AN12943A „ Technical Data (continued) y Main characteristics (continued) 3) Line amplifier ラインアンプ入出力特性　(片ch入力) Line amplifier I/O characteristics (Single-channel input) ラインアンプ入出力特性　(片ch入力) Line amplifier I/O characteristics (Single-channel input) Line amplifier output (dBV) ラインアンプ出力[dBV](Lch→Lch) (L-channel → L-channel) Line amplifier output (dBV) ラインアンプ出力[dBV](Rch→Rch) (R-channel → R-channel) ラインアンプ1出力(29pin)レベル[ｄBV] Line amplifier 1 output (Pin 29) level (dBV) Line amplifier output (Pin 30) level (dBV) ラインアンプ出力(30pin)レベル[ｄBV] VCC = 5.0 V, VCC_SP = 5.0 V, freq = 1 kHz, RL = 10 kΩ, RL(HP) = 100 Ω, EVR = 3.3 V, Automatic detection on, HPF: 400 Hz, LPF: 30 kHz 10 0 -10 -20 -30 -30 -20 -10 0 入力レベル(27pin) Input level (Pin 27)[ｄBV] (dBV) 10 10 0 -10 -20 -30 -30 -20 -10 0 入力レベル(28pin) Input level (Pin 28)[ｄBV] (dBV) 10 VCC = 5.0 V, VCC_SP = 5.0 V, freq = 1 kHz, RL = 10 kΩ, RL(HP) = 100 Ω, EVR = 3.3 V, Automatic detection on, HPF: 400 Hz, LPF: 30 kHz Line amplifier I/O distortion characteristics (Single-channel input) ラインアンプ入出力歪率特性　(片ch入力) Line amplifier I/O distortion characteristics (Single-channel input) ラインアンプ入出力歪率特性　(片ch入力) Line amplifier output distortion (%) Lineラインアンプ出力(29pin)歪率 amplifier output (Pin 29) distortion THDTHD [%] (%) 10 Line ラインアンプ出力(30pin)歪率 amplifier output (Pin 30) distortion THDTHD [%] (%) Line amplifier output distortion (%) ラインアンプ出力歪率[%](Rch→Rch) (R-channel → R-channel) 1 0.1 0.01 0.001 0.0001 ラインアンプ出力歪率[%](Lch→Lch) (L-channel → L-channel) 10 1 0.1 0.01 0.001 0.0001 -30 -20 -10 0 Input level (Pin 27)[ｄBV] (dBV) 入力レベル(27pin) 10 -30 -20 -10 0 10 Input level (Pin 28)[ｄBV] (dBV) 入力レベル(28pin) VCC = 5.0 V, VCC_SP = 5.0 V, VIN = −10 dBV, RL = 10 kΩ, RL(HP) = 100 Ω, EVR = 3.3 V, Automatic detection on Line amplifier frequency characteristics (Single-channel input) ラインアンプ周波数特性　(片ch入力) Line amplifier output (dBV) ラインアンプ出力[dBV](Rch→Rch) (R-channel → R-channel) ラインアンプ出力(29pin)レベル[ｄBV] Line amplifier output (Pin 29) level (dBV) Line amplifier output (Pin 30) level (dBV) ラインアンプ出力(30pin)レベル[ｄBV] Line amplifier frequency characteristics (Single-channel input) ラインアンプ周波数特性　(片ch入力) -7 -8 -9 -10 -11 -12 0.01 0.1 1 10 [kHz] Input入力周波数(27pin) frequency (Pin 27) (kHz) 100 Line amplifier output (dBV) ラインアンプ出力[dBV](Lch→Lch) (L-channel → L-channel) -7 -8 -9 -10 -11 -12 0.01 0.1 1 10 100 入力周波数(28pin) [kHz] Input frequency (Pin 28) (kHz) SDC00057AEB 25 AN12943A „ Technical Data (continued) y Main characteristics (continued) 3) Line amplifier (continued) Line amplifier frequency characteristics (Single-channel input) ラインアンプ周波数特性　(片ch入力) Line amplifier frequency characteristics (Single-channel input) ラインアンプ周波数特性　(片ch入力) Line amplifier output distortion (%) ラインアンプ出力歪率[%](Rch→Rch) (R-channel → R-channel) Line amplifier output distortion (%) ラインアンプ出力歪率[%](Lch→Lch) (L-channel → L-channel) 10 1 0.1 0.01 0.001 0.0001 0.01 0.1 1 10 [kHz] Input入力周波数(27pin) frequency (Pin 27) (kHz) 100 ラインアンプ出力(29pin)歪率 THD [%] Line amplifier output (Pin 29) distortion THD (%) Line amplifier output (Pin 30) distortion THD (%) ラインアンプ出力(30pin)歪率 THD [%] VCC = 5.0 V, VCC_SP = 5.0 V, VIN = −10 dBV, RL = 10 kΩ, RL(HP) = 100 Ω, EVR = 3.3 V, Automatic detection on, LPF: 30 kHz (20 kHz to 1 kHz), LPF: 80 kHz (2 kHz to 10 kHz) 10 1 0.1 0.01 0.001 0.0001 0.01 0.1 1 10 100 [kHz] Input入力周波数(28pin) frequency (Pin 28) (kHz) VCC = 5.0 V, VCC_SP = 5.0V, VIN = −10 dBV, RL = 10 kΩ, RL(HP) = 100 Ω, EVR = 3.3 V, Automatic detection on, 30 kHz: LPF Cross talk (dB) クロストーク　[dB]　(Lch→Rch) (L-channel → R-channel) [dB]　（Rch→Lch) Cross talkクロストーク (dB) (R-channel → L-channel) Cross talkクロストーク (dB) (L-channel [dB]　（Lch→Rch) → R-channel) Line amplifier: Cross talk frequency characteristics (L-channel → R-channel) ラインアンプ：クロストーク周波数特性（Lch→Rch) 50 60 70 80 90 100 110 0.01 0.1 1 10 入力周波数(Lch-28pin) [kHz] Input frequency (L-channel - Pin 28) (kHz) 100 Line amplifier: Cross talk frequency characteristics (R-channel → L-channel) ラインアンプ：クロストーク周波数特性（Rch→Lch) Cross talk (dB) クロストーク　[dB]　(Rch→Lch) (R-channel → L-channel) 50 60 70 80 90 100 110 0.01 0.1 1 10 100 入力周波数(Rch-27pin) [kHz] Input frequency (R-channel - Pin 27) (kHz) SDC00057AEB 26 AN12943A „ Technical Data (continued) y Main characteristics (continued) 4) EVR VCC = 5.0 V, VCC_SP = 5.0 V, VIN = −10 dBV, freq = 1 kHz, ROUT = 100 Ω, Automatic detection on, HPF: 400 Hz, LPF: 30 kHz ☆EVR減衰レベル特性-HP出力 EVR attenuate level characteristics − Headphone output ☆EVR減衰レベル特性-HP出力 EVR attenuate level characteristics − Headphone output HP amplifier output (dBV) HPアンプ出力(40pin)レベル[ｄBV] HP amplifier output (Pin 40) level (dBV) HPアンプ1出力(41pin)レベル[ｄBV] HP amplifier 1 output (Pin 41) level (dBV) HP amplifier output (dBV) HPアンプ出力[dBV](Rch→Rch) (R-channel → R-channel) 0 -10 -20 -30 -40 -50 -60 -70 -80 -90 -100 0 0.5 1 1.5 2 2.5 EVR-CTL(１9pin) EVR-CTL (Pin 19)[V](V) 3 3.5 HPアンプ出力[dBV](Lch→Lch) (L-channel → L-channel) 0 -10 -20 -30 -40 -50 -60 -70 -80 -90 -100 4 0 0.5 1 1.5 2 2.5 3 3.5 4 EVR-CTL(１9pin) [V](V) EVR-CTL (Pin 19) VCC = 5.0 V, VCC_SP = 5.0 V, VIN = −10 dBV, freq = 1 kHz, ROUT = 100 Ω, Automatic detection on, HPF: 400 Hz, LPF: 30 kHz ☆EVR減衰歪率特性-HP出力 EVR attenuate distortion characteristics − Headphone output ☆EVR減衰歪率特性-HP出力 EVR attenuate distortion characteristics − Headphone output HP amplifier output distortion (%) HP amplifier output distortion (%) HPアンプ出力歪率[%](Lch→Lch) (L-channel → L-channel) HP amplifier output (Pin 40) distortion HPアンプ出力(40pin)歪率 THD [%]THD (%) HP amplifier output (Pin 41) distortion HPアンプ出力(41pin)歪率 THD [%]THD (%) HPアンプ出力歪率[%](Rch→Rch) (R-channel → R-channel) 10 1 0.1 0.01 0.001 0 0.5 1 1.5 2 2.5 3 EVR-CTL(１9pin) [V](V) EVR-CTL (Pin 19) 3.5 4 10 1 0.1 0.01 0.001 0 0.5 1 1.5 2 2.5 3 3.5 4 EVR-CTL(１9pin) EVR-CTL (Pin 19)[V](V) SDC00057AEB 27 AN12943A „ Technical Data (continued) y Main characteristics (continued) 5) Beep VCC = 5.0 V, VCC_SP = 5.0 V, freq = 1 kHz, Input resistance = 10 kΩ, Square wave, EVR = 3.3 V (max), Automatic detection on Beep入出力レベル特性：SP負荷-8Ω Beep I/O level characteristics: Speaker load − 8 Ω Beep I/OBeep入出力レベル特性：SP負荷-8Ω level characteristics: Speaker load − 8 Ω SP output level SP出力レベル(BEEP→Lch) (BEEP → L-channel) 1 SP出力レベル-Lch [Vrms] (Vrms) SP output level - L-channel SP出力レベル-Rch [Vrms] (Vrms) SP output level - R-channel SP output level SP出力レベル(BEEP→Rch) (BEEP → R-channel) 0.5 0 0.01 0.1 1 Beep入力ﾚﾍﾞﾙ(32pin) Beep input level (Pin 32)[Vrms] (Vrms) 1 0.5 0 0.01 10 0.1 1 10 Beep入力ﾚﾍﾞﾙ(32pin) Beep input level (Pin 32)[Vrms] (Vrms) VCC = 5.0 V, VCC_SP = 5.0 V, VIN = 1.0 Vrms, Input resistance = 10 kΩ, Square wave, EVR = 3.3 V (max), Automatic detection on Beep周波数レベル特性：SP負荷-8Ω Beep frequency level characteristics: Speaker load − 8 Ω Beep周波数レベル特性：SP負荷-8Ω Beep frequency level characteristics: Speaker load − 8 Ω SP output level SP出力レベル(BEEP→Lch) (BEEP → L-channel) 1 SP出力レベル-Lch [Vrms] SP output level - L-channel (Vrms) SP出力レベル-Rch [Vrms] SP output level - R-channel (Vrms) SP output level SP出力レベル(BEEP→Rch) (BEEP → R-channel) 0.5 0 0.1 1 10 [ｋHz] BeepBeep入力周波数(32pin) input frequency (Pin 32) (kHz) 100 1 0.5 0 0.1 1 10 100 [ｋHz] BeepBeep入力周波数(32pin) input frequency (Pin 32) (kHz) SDC00057AEB 28 AN12943A „ Technical Data (continued) y Main characteristics (continued) 6) Signal detection preamplifier VCC = 5.0 V, VCC_SP = 5.0 V, freq = 1 kHz, R-channel IN, EVR = VCC = 5.0 V, VCC_SP = 5.0 V, freq = 1 kHz, L-channel IN, EVR = 3.3 V, HPF: 400 Hz, LPF: 30 kHz 3.3 V, HPF: 400 Hz, LPF: 30 kHz Signal detection preamplifier I/O characteristics 信号検出プリアンプ入出力特性 Signal detection preamplifier I/O characteristics 信号検出プリアンプ入出力特性 Preamplifier output (dBV) プリアンプ出力[dBV](Lcｈ) (L-channel) Preamplifier output (dBV) 10 プリアンプ出力(12pin)レベル　[ｄBV] Preamplifier output (Pin 12) level (dBV) プリアンプ出力(12pin)レベル　[ｄBV] Preamplifier output (Pin 12) level (dBV) プリアンプ出力[dBV](Rch) (R-channel) 0 -10 -20 -30 -40 -50 -80 -70 -60 -50 -40 -30 -20 入力レベル(28pin) Input level (Pin 28)[ｄBV] (dBV) -10 10 0 -10 -20 -30 -40 -50 -80 0 VCC = 5.0 V, VCC_SP = 5.0 V, VIN = −49 dBV, R-channel IN, RVR = 3.3 V -70 -60 -50 -40 -30 -20 入力レベル(27pin) Input level (Pin 27)[ｄBV] (dBV) Signal detection preamplifier frequency characteristics 信号検出プリアンプ周波数特性 Preamplifier output (dBV) プリアンプ出力[dBV](Lcｈ) (L-channel) プリアンプ出力(12pin)レベル　[ｄBV] Preamplifier output (Pin 12) level (dBV) Preamplifier output (Pin 12) level (dBV) プリアンプ出力(12pin)レベル　[ｄBV] Preamplifier output (dBV) プリアンプ出力[dBV](Rch) (R-channel) 0 -10 -20 -30 -40 0.1 1 10 [kHz] Input入力周波数(28pin) frequency (Pin 28) (kHz) 0 VCC = 5.0 V, VCC_SP = 5.0 V, VIN = −49 dBV, L-channel IN, EVR = 3.3 V Signal detection preamplifier frequency characteristics 信号検出プリアンプ周波数特性 -50 0.01 -10 100 0 -10 -20 -30 -40 -50 0.01 0.1 1 10 100 [kHz] Input入力周波数(28pin) frequency (Pin 28) (kHz) VCC = 5.0 V, VCC_SP = 5.0 V, VIN = −49 dBV, R-channel IN, EVR VCC = 5.0 V, VCC_SP = 5.0 V, VIN = −49 dBV, L-channel IN, EVR = 3.3 V, LPF: R = 20 kΩ, C = 2 200 pF = 3.3 V, LPF: R = 20 kΩ, C = 2 200 pF Signal detection preamplifier frequency characteristics 信号検出プリアンプ周波数特性 Signal detection preamplifier frequency characteristics 信号検出プリアンプ周波数特性 Post-LPF output (dBV) LPF後出力[dBV](Lch) (L-channel) 0 LPF後出力(11pin)レベル　[ｄBV] Post-LPF output (Pin 11) level (dBV) Post-LPF output (Pin 11) level (dBV) LPF後出力(11pin)レベル　[ｄBV] Post-LPF output (dBV) LPF後出力[dBV](Rch) (R-channel) -10 -20 -30 -40 -50 0.01 0.1 1 10 Input入力周波数(28pin) frequency (Pin 28) (kHz) [kHz] 100 0 -10 -20 -30 -40 -50 0.01 0.1 1 10 100 Input入力周波数(27pin) frequency (Pin 27) (kHz) [kHz] SDC00057AEB 29 AN12943A „ Technical Data (continued) y Main characteristics (continued) 7) Signal detection threshold value VCC = 5.0V, VCC_SP = 5.0 V, freq = 1 kHz, RC constants between VCC = 5.0V, VCC_SP = 5.0 V, freq = 1 kHz, RC constants between pin 11 and pin 12: R = 20 kΩ, C = 2 200 pF, Signal: LINE input pin 11 and pin 12: R = 20 kΩ, C = 2 200 pF, Signal: LINE input (pin 27), SP input: 24 kΩ-ATT, HPF: 400 Hz, LPF: 30 kHz SP-SAVE特性（Rch入力) (R-channel input) SP-SAVE characteristics (pin 28), SP input: 24 kΩ-ATT, HPF: 400 Hz, LPF: 30 kHz SP-SAVE SP-SAVE特性（Lch入力) characteristics (L-channel input) EVR=3.3V EVR = 3.3 V (入力:-80→0dBV) (Input: −80 dBV → 0 dBV) EVR = 3.3 V (入力:0→-80dBV) (Input: 0 dBV → −80 dBV) EVR=3.3V EVR=1.65V (入力:-80→0dBV) EVR = 1.65 V (Input: −80 dBV → 0 dBV) EVR = 1.65 V (Input: 0 dBV → −80 dBV) EVR=1.65V (入力:0→-80dBV) EVR=3.3V EVR = 3.3 V (入力:-80→0dBV) (Input: −80 dBV → 0 dBV) EVR = 3.3 V (入力:0→-80dBV) (Input: 0 dBV → −80 dBV) EVR=3.3V EVR=1.65V (入力:-80→0dBV) EVR = 1.65 V (Input: −80 dBV → 0 dBV) EVR = 1.65 V (Input: 0 dBV → −80 dBV) EVR=1.65V (入力:0→-80dBV) 10 SP amplifier output (L-channel) level (dBV) SPアンプ出力(Lch)レベル [ｄBV] ＥＶＲ：ＭＡＸ 0 -10 入力レベルを減少(レベル大→レベル小)した場合 When input level was reduced (High-level → Low-level) -20 -30 ＥＶＲ：ｔｙｐ -40 -50 -60 -70 -80 -90 -100 When input level was increased (Low-level → High-level) 入力レベルを増加(レベル小→レベル大)した場合 -110 -120 ＥＶＲ：ＭＡＸ 0 -10 入力レベルを減少(レベル大→レベル小)した場合 When input level was reduced (High-level → Low-level) -20 -30 ＥＶＲ：ｔｙｐ -40 -50 -60 -70 -80 -90 -100 When input level was increased (Low-level → High-level) 入力レベルを増加(レベル小→レベル大)した場合 -110 -120 -80 -70 -60 -50 -40 -30 -20 -10 0 -80 -70 -60 Input level入力レベル(Rｃｈ入力) (R-channel[dBV] input) (dBV) -50 -40 -30 -20 -10 0 Input level入力レベル(Lｃｈ入力) (L-channel[dBV] input) (dBV) 8) Mode switching VCC = 5.0 V, VCC_SP = 5.0 V, VIN = −10 dBV, freq = 1 kHz, VCC = 5.0 V, VCC_SP = 5.0 V, VIN = −10 dBV, freq = 1 kHz, R-channel input, RL = 8 Ω, HP_JACK = 5 V, EVR = 3.3 V R-channel input, RL = 8 Ω, SPK_MUTE = 5 V, EVR = 3.3 V SPK-MUTE　ON/OFF SPK_MUTE on/off SPOUT (VCC = 4.4 V) SPOUT(VCC=4.4V) SPOUT (VCC = 5 V) SPOUT(VCC=5V) HP-JACK　ON/OFF HP_JACK on/off SPOUT(VCC=4.4V) SPOUT (VCC = 4.4 V) SPOUT (VCC = 5.6 V) SPOUT(VCC=5.6V) 20 20 0 0 SPOUT(Rch) [ｄBV] (dBV) SPOUT (R-channel) SPOUT (R-channel) SPOUT(Rch) [ｄBV] (dBV) SP amplifier output (R-channel) level (dBV) SPアンプ出力(Rch)レベル [ｄBV] 10 -20 -40 -60 -80 -100 SPOUT(VCC=5V) SPOUT (VCC = 5 V) SPOUT(VCC=5.6V) SPOUT (VCC = 5.6 V) -20 -40 -60 -80 -100 -120 -120 0 1 2 3 CTL-Voltage（50pin) CTL-Voltage (Pin 50)[V](V) 4 0 5 1 2 3 4 5 CTL-Voltage（47pin) CTL-Voltage (Pin 47)[V](V) SDC00057AEB 30 AN12943A „ Technical Data (continued) y Main characteristics (continued) 8) Mode switching (continued) VCC = 5.0 V, VCC_SP = 5.0 V, VIN = −49 dBV, freq = 1 kHz, R-channel input, EVR = 3.3 V VCC = 5.0V, VCC_SP = 5.0 V, Automatic distinction off, SP-SAVE = On, EVR = 0 V 信号検出アンプ出力(12pin) Signal detection amplifier output 　[ｄBV] (Pin 12) (dBV) 信号自動検出機能　ON/OFF Signal automatic detection feature on/off Pin 12 output 12pin出力(VCC=4.4V) (V CC = 4.4 V) Pin 12 output 12pin出力(VCC=5.0V) (VCC = 5.0 V) STANDBY　ON/OFF STANDBY on/off IVCC IVCC(VCC=4.4V) (VCC = 4.4 V) Pin 12 output 12pin出力(VCC=5.6V) (VCC = 5.6 V) 35 -10 30 -20 25 IVCC [mA] IVCC (mA) 0 -30 -40 IVCC IVCC(VCC=5V) (VCC = 5 V) IVCC IVCC(VCC=5.6V) (VCC = 5.6 V) 20 15 -50 10 -60 5 -70 0 0 1 2 3 CTL-Voltage (Pin 49)[V](V) CTL-Voltage（49pin) 4 5 0 1 2 3 4 5 CTL-Voltage（31pin) CTL-Voltage (Pin 31)[V](V) VCC = 5.0 V, VCC_SP = 5.0 V, BVREF = 2.5 V, VIN = −10 dBV, f = 1 kHz Switch A　ON/OFF Switch A on/off Switch (VCC = 5 V) SwitchA-3 A-3(VCC=5V) Switch B　ON/OFF Switch B on/off Switch B-2 (VCC = 4.4 V) Switch B-2(VCC=4.4V) Switch (VCC = 5.6 V) SwitchA-3 A-3(VCC=5.6V) -10 -10 -20 -20 SwitchB-2 B-2(25pin) Switch (Pin 25)[ｄBV] (dBV) Switch (Pin 23)[ｄBV] (dBV) SwitchA-3 A-3(23pin) Switch (VCC = 4.4 V) SwitchA-3 A-3(VCC=4.4V) -30 -40 -50 -60 -70 -80 -90 -100 Switch B-2 (VCC = 5 V) Switch B-2(VCC=5V) Switch B-2 (VCC = 5.6 V) Switch B-2(VCC=5.6V) -30 -40 -50 -60 -70 -80 -90 -100 0 1 2 3 4 5 0 1 CTL-Voltage（17pin) [V](V) CTL-Voltage (Pin 17) y Switch A MODE-CTL measurement diagram 20 23 BVREF 2.5 V 3 4 5 y Switch B MODE-CTL measurement diagram Measurement of AC level AN12943A 2 CTL-Voltage（33pin) CTL-Voltage (Pin 33)[V](V) Measurement of AC level AN12943A 1 µF 10 kΩ AC input −10 dBV 1 kHz Switch 10 kΩ A-3 20 25 BVREF 2.5 V 17 33 Switch A 0 V to 5 V Switch B 0 V to 5 V SDC00057AEB 1 µF 10 kΩ AC input −10 dBV 1 kHz Switch 10 kΩ B-2 31 Request for your special attention and precautions in using the technical information and semiconductors described in this material (1) An export permit needs to be obtained from the competent authorities of the Japanese Government if any of the products or technical information described in this material and controlled under the "Foreign Exchange and Foreign Trade Law" is to be exported or taken out of Japan. (2) The technical information described in this material is limited to showing representative characteristics and applied circuits examples of the products. It neither warrants non-infringement of intellectual property right or any other rights owned by our company or a third party, nor grants any license. (3) We are not liable for the infringement of rights owned by a third party arising out of the use of the technical information as described in this material. (4) The products described in this material are intended to be used for standard applications or general electronic equipment (such as office equipment, communications equipment, measuring instruments and household appliances). Consult our sales staff in advance for information on the following applications: • Special applications (such as for airplanes, aerospace, automobiles, traffic control equipment, combustion equipment, life support systems and safety devices) in which exceptional quality and reliability are required, or if the failure or malfunction of the products may directly jeopardize life or harm the human body. • Any applications other than the standard applications intended. (5) The products and product specifications described in this material are subject to change without notice for modification and/or improvement. At the final stage of your design, purchasing, or use of the products, therefore, ask for the most up-to-date Product Standards in advance to make sure that the latest specifications satisfy your requirements. (6) When designing your equipment, comply with the guaranteed values, in particular those of maximum rating, the range of operating power supply voltage, and heat radiation characteristics. Otherwise, we will not be liable for any defect which may arise later in your equipment. Even when the products are used within the guaranteed values, take into the consideration of incidence of break down and failure mode, possible to occur to semiconductor products. Measures on the systems such as redundant design, arresting the spread of fire or preventing glitch are recommended in order to prevent physical injury, fire, social damages, for example, by using the products. (7) When using products for which damp-proof packing is required, observe the conditions (including shelf life and amount of time let standing of unsealed items) agreed upon when specification sheets are individually exchanged. (8) This material may be not reprinted or reproduced whether wholly or partially, without the prior written permission of Matsushita Electric Industrial Co., Ltd. 2003 SEP