HA12192F/HA12197F/HA12212F Series Audio Signal Processor for Car Deck (Decode only Dolby B-type NR with PB Amp.) ADE-207-167D (Z) 5th Edition Jun. 1999 Description HA12192F/HA12197F/HA12212F series are silicon monolithic bipolar ICs providing Dolby noise reduction system*, music sensor, PB equalizer system in one chip. Functions • PB equalizer × 2 channel • Music sensor × 1 channel • Decode only Dolby B-NR × 2 channel Note: HA12197F series is not built in Dolby B-NR. Features • Different type of PB equalizer characteristics selection (120µ / 70µ position) is available with fully electronic control switching built-in. • Changeable to Forward, Reverse-mode for PB head with fully electronic control switching built-in. • Available to change music sensing level by external resistor. • Available to change frequency response of music sensor by external capacitor. • NR ON/OFF fully electronic control switching built-in. (HA12192F/HA12212F series only) • Available to connect direct with MPU. • HA12192F series, HA12197F series and HA12212F available to allow common PCB designs. • HA12212F only changes by package from HA12192F series. It is the same electrical characteristics that HA12192F series. * Dolby is a trademark of Dolby Laboratories Licensing Corporation. A license from Dolby Laboratories Licensing Corporation is required for the use of this IC. HA12192F/HA12197F/HA12212F Series Ordering Information Function Operating Voltage Product Package PB-OUT Level PB-EQ Dolby B-NR MS Min Max HA12192F FP-28TB 300mVrms ! ! ! 6.5V 15V ! × ! ! ! ! ! × ! ! ! ! ! × ! ! ! ! HA12197F HA12193F 387.5mVrms HA12198F HA12194F 450mVrms HA12199F HA12212F FP-40B 300mVrms Note: These ICs are designed to operate on single supply. Rev.5, Jun. 1999, page 2 of 89 6.8V 7.2V 6.5V HA12192F/HA12197F/HA12212F Series Pin Description and Equivalent Circuit (VCC = 9V, single supply, Ta = 25°C, No signal, The value in the table show typical value.) Pin No. FP-28TB FP-40B Pin Name Note 13 19 MSI V = VCC / 2 Equivalent Circuit Description MS input *1 Ri1 V 100k Ri2 VCC/2 18 28 DIN (L) V = VCC / 2 Ri1 Ri2 HA12192/ 0 100k 3/4 HA12212F HA12197 HA12198 22.6k 77.4k HA12199 33.3k 66.7k Deck input V 100k VCC/2 3 2 16 * 3 DIN (R) 22 DET (L) VCC V = 2.5V Time constant pin for rectifier V GND 2 5* 9 DET (R) 23 33 RIP V = VCC / 2 Ripple filter 10 BIAS V = 0.28V Dolby bias current input 2 6* V GND Note: 1. MS : Music Sensor 2. Non connection regarding HA12197F series. Rev.5, Jun. 1999, page 3 of 89 HA12192F/HA12197F/HA12212F Series Pin Description and Equivalent Circuit (VCC = 9V, single supply, Ta = 25°C, No signal, The value in the table show typical value.) (cont) Pin No. FP-28TB FP-40B Pin Name Note 12 18 MSDET I = 0µA Equivalent Circuit Description Time constant pin for rectifier I GND 17 23 PBOUT (L) VCC V = VCC / 2 PB output V GND 4 8 PBOUT (R) 14 20 MAOUT VCC V = VCC / 2 1 MS amp. output * V GND 26 38 VREF Reference output 19 29 EQOUT (L) Equalizer output 2 2 EQOUT (R) (120µ) Note: 1. MS : Music Sensor Rev.5, Jun. 1999, page 4 of 89 HA12192F/HA12197F/HA12212F Series Pin Description and Equivalent Circuit (VCC = 9V, single supply, Ta = 25°C, No signal, The value in the table show typical value.) (cont) Pin No. FP-28TB FP-40B Pin Name Note 20 30 M-OUT (L) V = VCC / 2 Equivalent Circuit Description VCC Equalizer output (70µ) V GND 1 1 M-OUT (R) 11 17 VCC V = VCC Power supply — 35, 36 TAB V = 0V GND pin — 4,5,6,7, 15,16,24, 25,26,27 — — NC pin 24 34 FIN (L) V = VCC / 2 Equalizer input (FORWARD) V 25 37 FIN (R) 22 32 RIN (L) Equalizer input 27 39 RIN (R) (REVERSE) 21 31 NFI (L) Negative feedback 40 NFI (R) 11 NR OFF / ON 28 1 7* I = 20µA Mode control input I 22k 100k GND GND 8 12 120 / 70 9 13 F/R Note: 1. Non connection regarding HA12197F series. Rev.5, Jun. 1999, page 5 of 89 HA12192F/HA12197F/HA12212F Series Pin Description and Equivalent Circuit (VCC = 9V, single supply, Ta = 25°C, No signal, The value in the table show typical value.) (cont) Pin No. FP-28TB FP-40B Pin Name Note 10 14 MSOUT I = 0µA Equivalent Circuit Description MS VCC I 200 MS output (to MPU) 1 * 100k GND 15 21 MSGV V = VCC / 2 MS gain terminal * V 90k Note: 1. MS : Music Sensor Rev.5, Jun. 1999, page 6 of 89 1 GND TAB FIN (R) 25 F F VREF 26 R R 23 + 24 RIN (R) 27 22 RIN (L) NFI (R) 28 21 NFI (L) 1 2 19 M-OUT EQOUT (R) (R) 70µ ON + − − + 70µ ON 20 M-OUT EQOUT (L) (L) DIN (R) 3 I.A. I.A. 18 DIN (L) PBOUT (R) 4 Decode only Dolby B-NR LPF Decode only Dolby B-NR 17 PBOUT (L) DET (R) 5 16 DET (L) − + BIAS 6 15 13 MSI F/R 9 DET 12 MSOUT 10 11 VCC MS MSDET Micro computer NR OFF/ON 120/70 7 8 MA 14 MSGV MAOUT + RIP + FIN (L) D VCC HA12192F/HA12197F/HA12212F Series Block Diagram HA12192F Series Rev.5, Jun. 1999, page 7 of 89 GND TAB 26 VREF FIN (R) R R 25 F F 23 + Rev.5, Jun. 1999, page 8 of 89 24 RIN (R) 27 22 RIN (L) NFI (R) 28 21 NFI (L) 1 2 19 M-OUT EQOUT (R) (R) 70µ ON + − − + 70µ ON 20 M-OUT EQOUT (L) (L) DIN (R) 3 I.A. I.A. 18 DIN (L) PBOUT (R) 4 LPF 17 PBOUT (L) NC 5 16 NC NC 6 15 − + 7 NC MA 14 MSGV MAOUT + RIP F/R 9 DET 12 MSOUT 10 11 VCC MS MSDET Micro computer 120/70 8 13 MSI + FIN (L) D VCC HA12192F/HA12197F/HA12212F Series HA12197F Series 36 35 FIN (R) 37 F F VREF 38 R R 33 + 34 RIN (R) 39 32 RIN (L) NFI (R) 40 31 NFI (L) 1 2 29 M-OUT EQOUT (R) (R) 70µ ON + − − + 70µ ON 30 M-OUT EQOUT (L) (L) DIN (R) 3 I.A. I.A. 28 DIN (L) PBOUT (R) 8 Decode only Dolby B-NR LPF Decode only Dolby B-NR 23 PBOUT (L) DET (R) 9 22 DET (L) − + BIAS 10 21 19 MSI F/R 13 DET 18 MSOUT 14 17 VCC MS MSDET Micro computer NR OFF/ON 120/70 11 12 MA 20 MSGV MAOUT + RIP + FIN (L) D VCC HA12192F/HA12197F/HA12212F Series HA12212F Rev.5, Jun. 1999, page 9 of 89 HA12192F/HA12197F/HA12212F Series Functional Description Power Supply Range HA12192F series and HA12197F series are provided with three line output level, which will permit on optimum overload margin for power supply conditions. And these series are designed to operate on single supply only. Table 1 Spply Voltage Range Product Single Supply HA12192F, HA12197F 6.5V to 15.0V HA12193F, HA12198F 6.8V to 15.0V HA12194F, HA12199F 7.2V to 15.0V Note: The lower limit of supply voltage depends on the line output reference level. The minimum value of the overload margin is specified as 12dB by Dolby Laboratories. Reference Voltage These devices provide the reference voltage of half the supply voltage that is the signal grounds. As the peculiarity of these devices, the capacitor for the ripple filter is very small about 1/100 compared with their usual value. The block diagram is shown as figure 1. + 11 VCC − MS block + − 26 VREF L, R channel EQ block + 23 RIP + C15 1µ − + − L channel Dolby block R channel Dolby block Note: HA12197F series is not built-in Dolby block. : internal reference voltage Figure 1 The Block Diagram of Reference Supply Voltage Rev.5, Jun. 1999, page 10 of 89 HA12192F/HA12197F/HA12212F Series Operating Mode Control HA12192F series and HA12197F series provides fully electronic switching circuits. And each operating mode control are controlled by parallel data (DC voltage). Table 2 Threshold Voltage (VTH) Pin No. 1 7* , 8, 9 Lo Hi Unit –0.2 to 1.0 3.5 to 5.3 V Test Condition Input Pin Measure V Table 3 Pin No. Switching Truth Table Lo Hi 7* NR-OFF NR-ON 8 120µ (NORMAL) 70µ (MATAL or CHROME) 9 FORWARD REVERSE 1 *1. Non connection regarding HA12197F series. Note: 1. Each pins are on pulled down with 100kΩ internal resistor. Therefore, it will be low-level when each pins are open. 2. Over shoot level and under shoot level of input signal must be the standardized. (High: 5.3V, Low: –0.2V) 3. Reducing pop noise is so much better for 10kΩ to 22kΩ resistor and 1µF to 22µF capacitor shown figure 2. Input Pin 10 to 22kΩ MPU + 1 to 22µF Figure 2 Interface for Reduction of Pop Noise Rev.5, Jun. 1999, page 11 of 89 HA12192F/HA12197F/HA12212F Series Input Block Diagram and Level Diagram PBOUT Level HA12192F/HA12197F : 300mVrms (−8.2dBs) HA12193F/HA12198F : 387.5mVrms (−6.0dBs) HA12194F/HA12199F : 450mVrms (−4.7dBs) R6 5.1kΩ C2 0.1µF R5 5.1kΩ DIN EQ OUT R4 12kΩ R2 330kΩ R3 C1 18kΩ 0.01µF 30mVrms (−28.2dBs) M-OUT EQ Amp. NFI − + Input Amp. + R1 180Ω − RIN NR circuit*1 PBOUT 0.6mVrms (−62.2dBs) VREF FIN Note: 1. HA12197F series is not built-in Dolby B-NR. The each level shown above is typical value when offering PBOUT level to PBOUT pin. (EQ Amp. GV = 40dB, f=1kHz) Figure 3 Input Block Diagram Adjustment of Playback Dolby Level After replace R5 and R6 with a half-fix volume of 10kΩ, adjust playback Dolby level. Rev.5, Jun. 1999, page 12 of 89 HA12192F/HA12197F/HA12212F Series The Sensitivity Adjustment of Music Sensor Adjusting MS Amp. gain by external resistor, the sensitivity of music sensor can set up. The music sensor block diagram is shown in figure 4, and frequency response is shown in figure 5. REP mode SER/REP SER mode VCC REX2 2.7kΩ CEX2 1µF DIN(L) + REX1 24kΩ + CEX1 0.01µF − + R11 330kΩ C8 0.01µF MSI MA OUT MSGV Input Amp. D VCC C6 0.33µF MS DET IL RL 90kΩ ATT − −6dB + LPF MSOUT DET MS Amp. 25kHz Micro computer GND − + Input Amp. DIN(R) Note: Input impedance of MSI is 100 kΩ typical. Figure 4 Music Sensor Block Diagram GV2 f3 f4 Repeat mode GV [dB] f1 GV1 f2 Search mode (FF or REW) 10 100 1k 10k 25k 100k f [Hz] Figure 5 Frequency Response Rev.5, Jun. 1999, page 13 of 89 HA12192F/HA12197F/HA12212F Series Product GVIA ATT GVIA + ATT HA12192F series 20dB 0dB 20dB HA12197F 20dB 0dB 20dB HA12198F 22.2dB –2.2dB 20dB HA12199F 23.5dB –3.5dB 20dB 1. Search mode (FF or REW) G V1 = G VIA + 20log 1 + f1 = 90k + ATT [dB] REX1 1 [Hz], 2π · CEX1 · REX1 f2 = 25k [Hz] 2. Repeat mode G V2 = G VIA + 20log 1 + Z= f3 = 90k + ATT [dB], Z REX1 · REX2 REX1 + REX2 1 [Hz], 2π · CEX2 · REX2 f4 = 25k [Hz] GVIA: Input Amp. GV = 20dB The sensitivity of music sensor (S) is computed by the formula mentioned below. S = – G V *1 – 20log 130 * 2 30 * 3 = 12.7 – G V [dB] Note: 1. Search mode: GV1, Repeat mode: GV2 2. Standard level of DIN pin (Dolby level) 3. Standard sensing level of music sensor Item REX1, 2 CEX1, 2 GV1, 2 f1, 3 f2, 4 S (one-side channel) Search mode 24kΩ 0.01µF 33.5dB 663Hz 25kHz –14.8dB Repeat mode 2.7kΩ 1µF 51.6dB 58.9Hz 25kHz –33.0dB Note: S is 6dB down in case of one-side channel. And this MS presented hysteresis lest MSOUT terminal should turn over again Hi level or Lo level, in case of thresh S level constantly. Rev.5, Jun. 1999, page 14 of 89 HA12192F/HA12197F/HA12212F Series Music Sensor Time Constant (1) Sensing no signal to signal (Attack) is determined by C6. 0.01µF to 1µF capacitor C6 can be applicable. Sensing no signal to signal = C6 × 45000 (sec) (2) Sensing signal to no signal (Recovery) is determined by C6 and R11, however preceding (1), 100kΩ to 1MΩ R11 can be applicable. Sensing signal to no signal = C6 × R11 (sec) Music Sensor Output (MSOUT) As for the internal circuit of music sensor block, music sensor output pin is connected to the collector of NPN type directly, therefore, output level will be “high” when sensing no signal. And output level will be “low” when sensing signal. Connection with microcomputer, design IL at 1mA Typ. IL = DVCC – MSOUT Lo * RL *MSOUTLo: Sensing signal (about 1V) Note: Supply voltage of MSOUT pin must be less than VCC voltage. The Tolerances of External Components for Dolby NR-Block (Only HA12192F Series) For adequate Dolby NR tracking response, take external components shown below. C10 0.1µF ±10% 16 DET(L) HA12192F series BIAS DET(R) 6 5 R8 18kΩ ±2% C4 0.1µF ±10% Figure 6 Tolerance of External Components Rev.5, Jun. 1999, page 15 of 89 HA12192F/HA12197F/HA12212F Series Absolute Maximum Rating (Ta=25°C) Item Symbol Rating Unit Supply voltage VCC Max 16 V Power dissipation Pd 400 mW Operating temperature Topr –40 to +85 °C Storage temperature Tstg –55 to +125 °C Rev.5, Jun. 1999, page 16 of 89 Note Ta ≤ 85°C HA12192F/HA12197F/HA12212F Series Electrical Characteristics HA12192F/HA12212F Series (Ta = 25°C, PBOUT Level, 300mVrms(HA12192F/HA12212F), 387.5mVrms (HA12193F), 450mVrms(HA12194F), VCC = 9.0V) Item Symbol Min Typ Max Unit Test Condition Quiescent current IQ — 9.5 — mA NR-ON, 70µ, No signal Imput Amp. gain (HA12192F/HA12212F) GVIA 19.0 20.0 21.0 dB Vin = 0dB, f = 1kHz Imput Amp. gain (HA12193F) GVIA 21.2 22.2 23.2 Imput Amp. gain (HA12194F) GVIA 22.5 23.5 24.5 B-type Decode boost DEC-2k (1) 2.8 4.3 5.8 DEC-2k (2) 7.0 8.5 10.0 Vout = –30dB, f = 2kHz DEC-5k (1) 1.7 3.2 4.7 Vout = –20dB, f = 5kHz DEC-5k (2) 6.7 8.2 9.7 Vout = –30dB, f = 5kHz Signal handling Vo max 12.0 13.0 — dB THD = 1%, f = 1kHz Signal to noise ratio S/N 70.0 80.0 — dB Rg = 5.1kΩ, CCIR / ARM THD THD — 0.05 0.3 % Vin = 0dB, f = 1kHz Channel separation CT RL (1) 65 80.0 — dB Vin = 10dB, f = 1kHz CT RL (2) 50 60.0 — GV EQ 1k 37.0 40.0 43.0 dB Vin = 0.6mVrms, f = 1kHz GV EQ 10k(1) 33.0 36.0 39.0 GV EQ 10k(2) 29.0 32.0 35.0 PB-EQ maximum output VoM 300 600 — mVrms THD = 1%, f = 1kHz PB-EQ THD THD-EQ — 0.05 0.3 % Vin = 0.6mVrms, f = 1kHz Noise voltage level converted in input VN — 0.7 1.5 µVrms Rg = 680Ω, DIN-AUDIO MS sensing level VON –18.0 –14.0 –10.0 dB f = 5kHz MS output low level VOL — 1.0 1.5 V MS output leak current IOH — 0.0 2.0 µA Control voltage VIL –0.2 — 1.0 V VIH 3.5 — 5.3 PB-EQ gain Note: dB Remark Vout = –20dB, f = 2kHz *1 DIN IN EQ IN 120µ Vin = 0.6mVrms, f = 10kHz 70µ *1 1. VCC = 6.5V (HA12192F/HA12212F) VCC = 6.8V (HA12193F) VCC = 7.2V (HA12194F) Rev.5, Jun. 1999, page 17 of 89 HA12192F/HA12197F/HA12212F Series Electrical Characteristics HA12197F Series (Ta = 25°C, PBOUT Level, 300mVrms(HA12197F), 387.5mVrms(HA12198F), 450mVrms(HA12199F), VCC = 9.0V) Item Symbol Min Typ Max Unit Test Condition Quiescent current IQ — 4.7 7.1 mA 70µ, No signal Imput Amp. gain (HA12197F) GVIA 19.0 20.0 21.0 dB Vin = 0dB, f = 1kHz Imput Amp. gain (HA12198F) GVIA 21.2 22.2 23.2 Imput Amp. gain (HA12199F) GVIA 22.5 23.5 24.5 Signal handling Vo max 12.0 13.0 — dB THD = 1%, f = 1kHz Signal to noise ratio S/N 70.0 80.0 — dB Rg = 5.1kΩ, CCIR / ARM THD THD — 0.05 0.3 % Vin = 0dB, f = 1kHz Channel separation CT RL (1) 65 80.0 — dB Vin = 10dB, f = 1kHz CT RL (2) 50 60.0 — GV EQ 1k 37.0 40.0 43.0 GV EQ 10k(1) 33.0 36.0 39.0 GV EQ 10k(2) 29.0 32.0 35.0 PB-EQ maximum output VoM 300 600 — mVrms THD = 1%, f = 1kHz PB-EQ THD THD-EQ — 0.05 0.3 % Vin = 0.6mVrms, f = 1kHz Noise voltage level converted in input VN — 0.7 1.5 µVrms Rg = 680Ω, DIN-AUDIO MS sensing level VON –18.0 –14.0 –10.0 dB f = 5kHz MS output low level VOL — 1.0 1.5 V MS output leak current IOH — 0.0 2.0 µA VIL –0.2 — 1.0 V VIH 3.5 — 5.3 PB-EQ gain Control voltage Note: 1. VCC = 6.5V (HA12197F) VCC = 6.8V (HA12198F) VCC = 7.2V (HA12199F) Rev.5, Jun. 1999, page 18 of 89 Remark *1 DIN IN EQ IN dB Vin = 0.6mVrms, f = 1kHz 120µ Vin = 0.6mVrms, f = 10kHz 70µ *1 AUDIO SG SW1 OFF D 17 16 C1 R3 0.01µ 18k 1 NFI(R) 28 R4 12k R6 5.1k C2 0.1µ R5 5.1k 3 TAB R24 10k +C19 0.47µ D 4 R7 10k C3 + 2.2µ 5 C4 R8 0.1µ 18k 6 NR OFF/ON 120/70 7 8 9 PB EQ PB EQ F/R TAB VREF 26 RIN(R) 27 R11 330k SW8 SW5 SW6 SW9 C5 22µ + R9 22k F R10 3.9k R C6 11 0.33µ VCC 12 MSDET 13 MSI 14 MAOUT 15 C10 R12 0.1µ 24k C9 0.01µ EQ PB MSOUT 10 2 HA12192F/HA12197F series FP-28TB TAB C11 2.2µ DET(L) FIN(R) 25 TAB 24 FIN(L) 23 RIP R1 R2 180 330k R23 680 C18 22µ Note: 1. Resistor tolerance ±1% 2. Capacitor tolerance ±1% 3. Unit R: Ω C: F AC VM1 R SW2 C17 22µ R22 680 C16 22µ R21 680 + ON L R R C15 1µ + F F C14 22µ + SW4 SW3 D 22 RIN(L) EQOUT(L) EQOUT(R) 21 NFI(L) DIN(R) R20 680 DIN(L) R13 10k PBOUT(R) EQ PB + BIAS + + DET(R) C13 R17 0.01µ 18k R15 5.1k R16 D 12k C12 0.1µ 20 18 19 C20 +0.47µ PBOUT(L) R14 5.1k MSGV R19 R18 180 330k M-OUT(L) M-OUT(R) + R25 10k 70 ON OFF AC VM2 120 C7 100µ + C8 0.01µ MS SW10 DISTORTION ANALYZER R L L SW7 OSCILLO SCOPE R NOISE METER DC SOURCE3 NOISE METER with CCIR/ARM filter and DIN-AUDIO filter DC SOURCE2 5V DC SOURCE1 9V DC VM HA12192F/HA12197F/HA12212F Series Test Circuit HA12192F/HA12197F Series Rev.5, Jun. 1999, page 19 of 89 M-OUT(L) 9 18 MSDET 19 MSI 20 MAOUT 21 R12 24k C9 0.01µ EQ PB C1 R3 0.01µ 18k 1 NFI(R) 40 RIN(R) 39 VREF 38 FIN(R) 37 36 GND R4 12k R6 5.1k C2 0.1µ R5 5.1k 3 4 5 R24 10k +C19 0.47µ D 6 8 R7 10k C3 + 2.2µ 7 C4 R8 0.1µ 18k 10 PB EQ PB EQ NR OFF/ON 11 120/70 12 F/R 13 MSOUT 14 NC 15 NC 16 M-OUT(R) 35 GND 2 DET(L) 17 VCC HA12212F FP-40B 22 MSGV 34 FIN(L) R1 R2 180 330k R23 680 C18 22µ Note: 1. Resistor tolerance ±1% 2. Capacitor tolerance ±1% 3. Unit R: Ω C: F AUDIO SG SW1 OFF D + AC VM1 R SW2 R22 680 EQOUT(L) EQOUT(R) EQ PB SW6 SW9 C5 22µ + R9 22k F R10 3.9k R C6 0.33µ R11 330k SW8 SW5 + ON L R C17 22µ C15 1µ C16 22µ R21 680 + F R + SW4 F NC NC SW3 33 RIP NC C14 22µ 32 RIN(L) DIN(L) DIN(R) 31 NFI(L) NC C13 R17 0.01µ 18k NC NC D R13 10k NC + + BIAS R20 680 C20 +0.47µ NC R15 C11 5.1k R16 2.2µ D 12k C12 0.1µ 30 28 27 26 25 24 23 29 R14 5.1k PBOUT(R) R19 R18 180 330k PBOUT(L) + Rev.5, Jun. 1999, page 20 of 89 DET(R) R25 10k 70 ON OFF AC VM2 120 C7 100µ + C8 0.01µ R L SW10 DISTORTION ANALYZER MS SW7 OSCILLO SCOPE R L NOISE METER DC SOURCE3 NOISE METER with CCIR/ARM filter and DIN-AUDIO filter DC SOURCE2 5V DC SOURCE1 9V DC VM HA12192F/HA12197F/HA12212F Series HA12212F HA12192F/HA12197F/HA12212F Series Characteristic Curves HA12192F Series Quiescent Current vs. Supply Voltage (HA12192F/3F/4F) Quiescent Current ICC (mA) 10 9 8 No-Signal NR-OFF (120/µ) NR-OFF (70/µ) NR-ON (120/µ) NR-ON (70/µ) 7 6 8 10 12 14 Supply Voltage (V) 16 Input Amp Gain vs. Frequency (HA12192F) 26 VCC = 9 V Gain (dB) 22 DIN 18 PBout (NR-OFF) 14 10 6 10 100 1k 10 k Frequency (Hz) 100 k 1M Rev.5, Jun. 1999, page 21 of 89 HA12192F/HA12197F/HA12212F Series DIN Input Amp. Gain vs. Frequency (HA12193F) 26 VCC = 9 V Gain (dB) 22 DIN PBOUT, NR-OFF 18 14 10 6 10 100 1k 10 k Frequency (Hz) 100 k 1M DIN Input Amp. Gain vs. Frequency (HA12194F) 26 VCC = 9 V DIN Gain (dB) 22 PBOUT, NR-OFF 18 14 10 6 10 100 Rev.5, Jun. 1999, page 22 of 89 1k 10 k Frequency (Hz) 100 k 1M HA12192F/HA12197F/HA12212F Series Decode Cut vs. Frequency (HA12192F) 0 Vout 0 dB –2 –10 dB VCC = 6.5 V, 9 V –20 dB Decode Cut (dB) –4 15 V –6 –30 dB –8 –10 –40 dB –12 DIN –14 100 200 500 1k 2k Frequency (Hz) 5k PBOUT 10 k 20 k Decode Cut vs. Frequency (HA12193F) 0 Vout 0 dB –10 dB –2 VCC = 6.8 V, 9 V –20 dB Decode Cut (dB) –4 15 V –6 –30 dB –8 –10 –40 dB –12 DIN –14 100 200 500 1k 2k Frequency (Hz) 5k PBOUT 10 k 20 k Rev.5, Jun. 1999, page 23 of 89 HA12192F/HA12197F/HA12212F Series Decode Cut vs. Frequency (HA12194F) 0 Vout 0 dB –10 dB –2 VCC = 7.2 V, 9V Decode Cut (dB) –4 –20 dB 15 V –6 –30 dB –8 –10 –40 dB –12 –14 100 200 500 1k 2k Frequency (Hz) DIN PBOUT 5k 10 k Maximum Output Level vs. Supply Voltage (HA12192F) 25 Maximum Output Level Vomax (dB) NR-OFF NR-ON 20 15 f = 1 kHz 0 dB = 300 mVrms T.H.D. = 1.0% DIN PBout 10 6 Rev.5, Jun. 1999, page 24 of 89 8 10 12 14 Supply Voltage (V) 16 20 k HA12192F/HA12197F/HA12212F Series Maximum Output Level vs. Supply Voltage (HA12193F) 25 Maximum Output Level Vomax (dB) NR-OFF NR-ON 20 15 f = 1 kHz 0 dB = 387.5 mVrms T.H.D. = 1.0% DIN PBout 10 6 8 10 12 14 Supply Voltage (V) 16 Maximum Output Level vs. Supply Voltage (HA12194F) 25 Maximum Output Level Vomax (dB) NR-OFF NR-ON 20 15 f = 1 kHz Vout = 450 mVrms T.H.D = 1.0 % DIN PBOUT 10 6 8 10 12 14 16 Supply Voltage (V) Rev.5, Jun. 1999, page 25 of 89 HA12192F/HA12197F/HA12212F Series Signal to Noise Ratio vs. Supply Voltage (HA12192F) Signal to Noise Ratio S/N (dB) 85 80 75 DIN PBout CCIR/ARM S = 300 mVrms NR-OFF NR-ON 70 6 8 10 12 14 Supply Voltage (V) 16 Signal to Noise Ratio vs. Supply Voltage (HA12193F) Signal to Noise Ratio S/N (dB) 85 80 75 DIN PBout CCIR/ARM S = 387.5 mVrms NR-OFF NR-ON 70 6 Rev.5, Jun. 1999, page 26 of 89 8 10 12 14 Supply Voltage (V) 16 HA12192F/HA12197F/HA12212F Series Signal to Noise Ratio vs. Supply Voltage (HA12194F) Signal to Noise Ratio S/N (dB) 85 80 75 DIN PBOUT CCIR/ARM S = 450 mVrms NR-OFF NR-ON 70 6 8 10 12 14 Supply Voltage (V) 16 Total Harmonic Distortion vs. Supply Voltage (1) (HA12192F) Total Harmonic Distortion T.H.D. (%) 1.0 DIN PBout NR-OFF Vout = 300 mVrms f = 100 Hz f = 1 kHz f = 10 kHz 0.1 0.01 6 8 10 12 14 Supply Voltage (V) 16 Rev.5, Jun. 1999, page 27 of 89 HA12192F/HA12197F/HA12212F Series Total Harmonic Distortion vs. Supply Voltage (2) (HA12192F) Total Harmonic Distortion T.H.D. (%) 1.0 DIN PBout NR-ON Vout = 300 mVrms f = 100 Hz f = 1 kHz f = 10 kHz 0.1 0.01 6 8 10 12 14 Supply Voltage (V) 16 Total Harmonic Distortion vs. Supply Voltage (1) (HA12193F) Total Harmonic Distortion T.H.D. (%) 1.0 DIN PBOUT NR-OFF Vout = 387.5 mVrms f = 100 Hz f = 1 kHz f = 10 kHz 0.1 0.01 6 Rev.5, Jun. 1999, page 28 of 89 8 10 12 14 Supply Voltage (V) 16 HA12192F/HA12197F/HA12212F Series Total Harmonic Distortion vs. Supply Voltage (2) (HA12193F) Total Harmonic Distortion T.H.D. (%) 1.0 DIN PBOUT NR-ON Vout = 387.5 mVrms f = 100 Hz f = 1 kHz f = 10 kHz 0.1 0.01 6 8 10 12 14 Supply Voltage (V) 16 Total Harmonic Distortion vs. Supply Voltage (1) (HA12194F) Total Harmonic Distortion T.H.D. (%) 1.0 DIN PBOUT NR-OFF Vout = 450 mVrms f = 100 Hz f = 1 kHz f = 10 kHz 0.1 0.01 6 8 10 12 14 Supply Voltage (V) 16 Rev.5, Jun. 1999, page 29 of 89 HA12192F/HA12197F/HA12212F Series Total Harmonic Distortion vs. Supply Voltage (2) (HA12194F) Total Harmonic Distortion T.H.D. (%) 1.0 DIN PBOUT NR-ON Vout = 450 mVrms f = 100 Hz f = 1 kHz f = 10 kHz 0.1 0.01 6 8 10 12 14 Supply Voltage (V) 16 Total Harmonic Distortion vs. Output Level (1) (HA12192F) Total Harmonic Distortion T.H.D. (%) 5.0 2.0 1.0 VCC = 9 V DIN PBout Vout = 300 mVrms = 0 dB NR-OFF 0.2 0.1 0.05 0.02 0.01 –10 Rev.5, Jun. 1999, page 30 of 89 f = 100 Hz f = 1 kHz f = 10 kHz 0.5 –5 0 10 15 5 Output Level Vout (dB) 20 HA12192F/HA12197F/HA12212F Series Total Harmonic Distortion vs. Output Level (2) (HA12192F) Total Harmonic Distortion T.H.D. (%) 5.0 2.0 1.0 VCC = 9 V DIN PBout Vout = 300 mVrms = 0 dB NR-ON f = 100 Hz f = 1 kHz f = 10 kHz 0.5 0.2 0.1 0.05 0.02 0.01 –10 –5 0 10 15 5 Output Level Vout (dB) 20 Total Harmonic Distortion vs. Output Level (1) (HA12193F) Total Harmonic Distortion T.H.D. (%) 5 VCC = 9 V 2 DIN PBOUT Vout = 387.5 mVrms = 0 dB 1.0 NR-OFF 0.5 0.2 f = 100 Hz f = 1 kHz f = 10 kHz 0.1 0.05 0.02 0.01 –10 –5 0 5 10 15 Output Level Vout (dB) 20 Rev.5, Jun. 1999, page 31 of 89 HA12192F/HA12197F/HA12212F Series Total Harmonic Distortion vs. Output Level (2) (HA12193F) Total Harmonic Distortion T.H.D. (%) 5 VCC = 9 V 2 DIN PBOUT Vout = 387.5 mVrms = 0 dB 1.0 NR-ON 0.5 0.2 f = 100 Hz f = 1 kHz f = 10 kHz 0.1 0.05 0.02 0.01 –10 –5 0 5 10 15 Output Level Vout (dB) 20 Total Harmonic Distortion vs. Output Level (1) (HA12194F) Total Harmonic Distortion T.H.D. (%) 5 VCC = 9 V 2 DIN PBOUT Vout = 450 mVrms = 0 dB 1.0 NR-OFF 0.5 0.2 0.1 0.05 0.02 0.01 –10 Rev.5, Jun. 1999, page 32 of 89 f = 100 Hz f = 1 kHz f = 10 kHz –5 0 5 10 15 Output Level Vout (dB) 20 HA12192F/HA12197F/HA12212F Series Total Harmonic Distortion vs. Output Level (2) (HA12194F) Total Harmonic Distortion T.H.D. (%) 5 VCC = 9 V 2 DIN PBOUT Vout = 450 mVrms = 0 dB 1.0 NR-ON 0.5 f = 100 Hz f = 1 kHz f = 10 kHz 0.2 0.1 0.05 0.02 0.01 −10 −5 0 5 10 15 Output Level Vout (dB) 20 Total Harmonic Distortion vs. Frequency (1) (HA12192F) Total Harmonic Distortion T.H.D. (%) 0.5 +10 dB 0 dB −10 dB NR-OFF DIN PBout VCC = 9 V 0 dB = 300 mVrms 0.1 0.05 0.01 100 30 kHz LPF HPF : High Pass Filter LPF : Low Pass Filter 500 400 Hz HPF+30 kHz LPF 1k Frequency (Hz) 5k 400 Hz HPF + 80 kHz LPF 10 k 20 k Rev.5, Jun. 1999, page 33 of 89 HA12192F/HA12197F/HA12212F Series Total Harmonic Distortion vs. Frequency (2) (HA12192F) Total Harmonic Distortion T.H.D. (%) 0.5 +10 dB 0 dB −10 dB NR-ON DIN PBout VCC = 9 V 0 dB = 300 mVrms 0.1 0.05 30 kHz LPF HPF : High Pass Filter LPF : Low Pass Filter 0.01 100 500 400 Hz HPF+30 kHz LPF 1k Frequency (Hz) 5k 400 Hz HPF + 80 kHz LPF 10 k 20 k Total Harmonic Distortion vs. Frequency (1) (HA12193F) Total Harmonic Distortion T.H.D. (%) 0.5 NR-OFF DIN PBout VCC = 9 V 0 dB = 387.5 mVrms +10 dB 0 dB −10 dB 0.1 0.05 30 kHz LPF 0.01 100 400 Hz HPF+30 kHz LPF HPF : High Pass Filter LPF : Low Pass Filter Rev.5, Jun. 1999, page 34 of 89 500 1k Frequency (Hz) 5k 400 Hz HPF + 80 kHz LPF 10 k 20 k HA12192F/HA12197F/HA12212F Series Total Harmonic Distortion vs. Frequency (2) (HA12193F) Total Harmonic Distortion T.H.D. (%) 0.5 NR-ON DIN PBout VCC = 9 V 0 dB = 387.5 mVrms +10 dB 0 dB −10 dB 0.1 0.05 30 kHz LPF HPF : High Pass Filter LPF : Low Pass Filter 0.01 100 500 400 Hz HPF+30 kHz LPF 1k Frequency (Hz) 5k 400 Hz HPF + 80 kHz LPF 10 k 20 k Total Harmonic Distortion vs. Frequency (1) (HA12194F) Total Harmonic Distortion T.H.D. (%) 0.5 +10 dB 0 dB −10 dB NR-OFF DIN PBOUT VCC = 9 V 0 dB = 450 mVrms 0.1 0.05 30 kHz LPF HPF : High Pass Filter LPF : Low Pass Filter 0.01 100 500 400 Hz HPF+30 kHz LPF 1k Frequency (Hz) 5k 400 Hz HPF + 80 kHz LPF 10 k 20 k Rev.5, Jun. 1999, page 35 of 89 HA12192F/HA12197F/HA12212F Series Total Harmonic Distortion vs. Frequency (2) (HA12194F) Total Harmonic Distortion T.H.D. (%) 0.5 +10 dB 0 dB −10 dB NR-ON DIN PBOUT VCC = 9 V 0 dB = 450 mVrms 0.1 0.5 30 kHz LPF HPF : High Pass Filter LPF : Low Pass Filter 0.01 100 500 400 Hz HPF+30 kHz LPF 1k Frequency (Hz) 5k 400 Hz HPF + 80 kHz LPF 10 k Channel Separation vs. Frequency (L → R) DIN → PBout (HA12192F) 0 Channel Separation (dB) −20 VCC = 9 V −40 −60 −80 NR-OFF NR-ON −100 20 40 Rev.5, Jun. 1999, page 36 of 89 100 400 1k Frequency (Hz) 4k 10 k 20 k 20 k HA12192F/HA12197F/HA12212F Series Channel Separation vs. Frequency (R → L) DIN → PBout (HA12192F) 0 Channel Separation (dB) –20 VCC = 9 V –40 –60 –80 NR-OFF NR-ON –100 20 40 100 400 1k Frequency (Hz) 4k 10 k 20 k Channel Separation vs. Frequency (L → R) DIN → PBout (HA12193F) 0 Channel Separation (dB) –20 VCC = 9 V –40 –60 NR-OFF –80 NR-ON –100 20 40 100 400 1k Frequency (Hz) 4k 10 k 20 k Rev.5, Jun. 1999, page 37 of 89 HA12192F/HA12197F/HA12212F Series Channel Separation vs. Frequency (R → L) DIN → PBout (HA12193F) 0 Channel Separation (dB) −20 VCC = 9 V −40 −60 −80 NR-OFF NR-ON −100 20 40 100 400 1k Frequency (Hz) 4k 10 k 20 k Channel Separation vs. Frequency (L → R) DIN → PBout (HA12194F) 0 Channel Separation (dB) −20 VCC = 9 V −40 −60 NR-OFF −80 NR-ON −100 20 40 Rev.5, Jun. 1999, page 38 of 89 100 400 1k Frequency (Hz) 4k 10 k 20 k HA12192F/HA12197F/HA12212F Series Channel Separation vs. Frequency (R → L) DIN → PBout (HA12194F) 0 Channel Separation (dB) –20 VCC = 9 V –40 –60 NR-OFF –80 NR-ON –100 20 40 100 400 1k Frequency (Hz) 4k 10 k 20 k Channel Separation vs. Frequency (L → R) Fin → PBout (HA12192F) 0 Channel Separation (dB) –20 VCC = 9 V –40 NR-OFF –60 –80 –100 20 NR-ON 40 100 400 1k Frequency (Hz) 4k 10 k 20 k Rev.5, Jun. 1999, page 39 of 89 HA12192F/HA12197F/HA12212F Series Channel Separation vs. Frequency (R → L) Fin → PBout (HA12192F) 0 –20 Channel Separation (dB) VCC = 9 V –40 NR-OFF –60 –80 –100 20 NR-ON 40 100 400 1k Frequency (Hz) 4k 10 k 20 k Channel Separation vs. Frequency (L → R) Fin → PBout (HA12193F) 0 Channel Separation (dB) –20 VCC = 9 V –40 NR-OFF –60 –80 –100 20 NR-ON 40 Rev.5, Jun. 1999, page 40 of 89 100 400 1k Frequency (Hz) 4k 10 k 20 k HA12192F/HA12197F/HA12212F Series Channel Separation vs. Frequency (R → L) Fin → PBout (HA12193F) 0 Channel Separation (dB) –20 VCC = 9 V –40 NR-OFF –60 –80 NR-ON –100 20 40 100 400 1k Frequency (Hz) 4k 10 k 20 k Channel Separation vs. Frequency (L → R) EQFin → PBout (HA12194F) 0 Channel Separation (dB) –20 VCC = 9 V –40 –60 NR-OFF –80 NR-ON –100 20 40 100 400 1k Frequency (Hz) 4k 10 k 20 k Rev.5, Jun. 1999, page 41 of 89 HA12192F/HA12197F/HA12212F Series Channel Separation vs. Frequency (R → L) EQFin → PBout (HA12194F) 0 Channel Separation (dB) –20 VCC = 9 V –40 –60 NR-OFF –80 NR-ON –100 20 40 100 400 1k Frequency (Hz) 4k 10 k 20 k Crosstalk vs. Frequency (Forward → Reverse) PBout (HA12192F) –20 –40 Crosstalk (dB) VCC = 9 V –60 NR-OFF –80 –100 –120 20 NR-ON 40 Rev.5, Jun. 1999, page 42 of 89 100 400 1k Frequency (Hz) 4k 10 k 20 k HA12192F/HA12197F/HA12212F Series −20 Crosstalk vs. Frequency (Reverse → Forward) PBout (HA12192F) −40 Crosstalk (dB) VCC = 9 V −60 NR-OFF −80 −100 −120 20 −20 NR-ON 40 100 400 1k Frequency (Hz) 4k 10 k 20 k Crosstalk vs. Frequency (Forward → Reverse) PBout (HA12193F) −40 Crosstalk (dB) VCC = 9 V −60 NR-OFF −80 −100 −120 20 NR-ON 40 100 400 1k Frequency (Hz) 4k 10 k 20 k Rev.5, Jun. 1999, page 43 of 89 HA12192F/HA12197F/HA12212F Series −20 Crosstalk vs. Frequency (Reverse → Forward) PBout (HA12193F) −40 Crosstalk (dB) VCC = 9 V −60 NR-OFF −80 −100 −120 20 −20 NR-ON 40 100 400 1k Frequency (Hz) 4k 10 k 20 k Crosstalk vs. Frequency (Forward → Reverse) PBout (HA12194F) −40 Crosstalk (dB) VCC = 9 V −60 NR-OFF −80 −100 −120 20 NR-ON 40 Rev.5, Jun. 1999, page 44 of 89 100 400 1k Frequency (Hz) 4k 10 k 20 k HA12192F/HA12197F/HA12212F Series Crosstalk vs. Frequency (Reverse → Forward) PBout (HA12194F) –20 –40 Crosstalk (dB) VCC = 9 V –60 NR-OFF –80 –100 –120 20 NR-ON 40 100 400 1k Frequency (Hz) 4k 10 k 20 k Ripple Rejection Ratio vs. Frequency (HA12192F) Ripple Rejection Ratio R.R.R. (dB) –20 VCC = 9 V –30 PBout NR-ON –40 –50 PBout NR-OFF –60 –70 20 EQout 40 100 400 1k Frequency (Hz) 4k 10 k 20 k Rev.5, Jun. 1999, page 45 of 89 HA12192F/HA12197F/HA12212F Series Ripple Rejection Ratio vs. Frequency (HA12193F) Ripple Rejection Ratio R.R.R. (dB) –20 VCC = 9 V –30 PBout NR-ON –40 –50 PBout NR-OFF –60 –70 20 EQout 40 100 400 1k Frequency (Hz) 4k 10 k 20 k Ripple Rejection Ratio vs. Frequency (HA12194F) –20 Ripple Rejection Ratio R.R.R. (dB) VCC = 9 V –30 PBOUT NR-ON –40 PBOUT NR-OFF –50 –60 –70 20 EQOUT 40 Rev.5, Jun. 1999, page 46 of 89 100 400 1k Frequency (Hz) 4k 10 k 20 k HA12192F/HA12197F/HA12212F Series Signal to Noise Ratio vs. Supply Voltage (HA12192F) Signal to Noise Ratio S/N (dB) 60 55 EQin PBout S = 300 mVrms DIN AUDIO 50 NR-OFF 120 µ NR-OFF 70 µ NR-ON 120 µ NR-ON 70 µ 45 6 8 10 12 14 Supply Voltage (V) 16 Signal to Noise Ratio vs. Supply Voltage (HA12193F) Signal to Noise Ratio S/N (dB) 60 55 EQin PBout S = 387.5 mVrms DIN AUDIO 50 NR-OFF 120 µ NR-OFF 70 µ NR-ON 120 µ NR-ON 70 µ 45 6 8 10 12 14 Supply Voltage (V) 16 Rev.5, Jun. 1999, page 47 of 89 HA12192F/HA12197F/HA12212F Series Signal to Noise Ratio vs. Supply Voltage (HA12194F) Signal to Noise Ratio S/N (dB) 60 55 EQIN PBOUT S = 450 mVrms DIN-AUDIO 50 NR-OFF 120 µ NR-OFF 70 µ NR-ON 120 µ NR-ON 70 µ 45 6 8 10 12 14 Supply Voltage (V) 16 Total Harmonic Distortion vs. Output Level (HA12192F) Total Harmonic Distortion T.H.D. (%) 5 NR-OFF 120 µ NR-OFF 70 µ NR-ON 120 µ NR-ON 70 µ 1.0 0.1 0.01 10 Rev.5, Jun. 1999, page 48 of 89 VCC = 9 V EQin PBout f = 1 kHz 0 dB = 300 mVrms 5 0 5 10 15 Output Level Vout (dB) 20 HA12192F/HA12197F/HA12212F Series Total Harmonic Distortion vs. Output Level (HA12193F) 5 Total Harmonic Distortion T.H.D. (%) NR-OFF 120 µ NR-OFF 70 µ NR-ON 120 µ NR-ON 70 µ 1.0 0.1 VCC = 9 V EQin PBout f = 1 kHz 0 dB = 387.5 mVrms 0.01 –10 –5 0 5 10 15 Output Level Vout (dB) 20 Total Harmonic Distortion vs. Output Level (HA12194F) Total Harmonic Distortion T.H.D. (%) 5 1.0 NR-OFF 120 µ NR-OFF 70 µ NR-ON 120 µ NR-ON 70 µ 0.1 0.01 –10 VCC = 9 V EQIN PBOUT f = 1 kHz 0 dB = 450 mVrms –5 0 5 10 15 20 Output Level Vout (dB) Rev.5, Jun. 1999, page 49 of 89 HA12192F/HA12197F/HA12212F Series Total Harmonic Distortion vs. Supply Voltage (HA12192F) Total Harmonic Distortion T.H.D. (%) 1.0 NR-OFF 120 µ NR-OFF 70 µ NR-ON 120 µ NR-ON 70 µ 0.5 0.1 0.05 EQin PBout f = 1 kHz Vout = +10 dB 0.01 6 8 10 12 14 Supply Voltage (V) 16 Total Harmonic Distortion vs. Supply Voltage (HA12193F) Total Harmonic Distortion T.H.D. (%) 1.0 NR-OFF 120 µ NR-OFF 70 µ NR-ON 120 µ NR-ON 70 µ 0.5 0.1 0.05 EQin PBout f = 1 kHz Vout = +10 dB 0.01 6 Rev.5, Jun. 1999, page 50 of 89 8 10 12 14 Supply Voltage (V) 16 HA12192F/HA12197F/HA12212F Series Total Harmonic Distortion vs. Supply Voltage (HA12194F) Total Harmonic Distortion T.H.D. (%) 1.0 NR-OFF 120 µ NR-OFF 70 µ NR-ON 120 µ NR-ON 70 µ 0.5 0.1 0.05 EQin PBOUT f = 1 kHz Vout = +10 dB 0.01 6 8 10 12 14 Supply Voltage (V) 16 EQ AMP. Gain vs. Frequency (HA12192F/3F/4F) 70 60 Gain (dB) VCC = 9 V 50 40 120 µ 70 µ 30 20 20 40 100 400 1k 4k Frequency (Hz) 10 k 40 k 100 k Rev.5, Jun. 1999, page 51 of 89 HA12192F/HA12197F/HA12212F Series Maximum Output Voltage vs. Supply Voltage (HA12192F/3F/4F) Maximum Output Voltage Vomax (Vrms) 6 EQIN EQOUT f = 1 kHz T.H.D = 1.0 % 120 µ 70 µ 5 4 3 2 1 0 6 8 10 12 14 Supply Voltage (V) 16 MS-AMP Gain vs. Frequency (HA12192F/3F/4F) 40 VCC = 9 V Gain (dB) 32 24 16 MAOUT MSI 8 0 20 40 100 Rev.5, Jun. 1999, page 52 of 89 400 1k 4k Frequency (Hz) 10 k 40 k 100 k HA12192F/HA12197F/HA12212F Series MS Sensing vs. Frequency (HA12192F/3F/4F) 5 0 –5 –10 –15 10 100 1k Frequency (Hz) 10 k 100 k Signal Sensing Time vs. Resistance (HA12192F/3F/4F) 500 0 dB –10 dB Signal Sensing Time (ms) MS Sensing Level (dB) MSOUT VCC = 9 V DIN 1 channel input VCC = 9 V f = 5 kHz DIN MSOUT 100 50 PBOUT MSOUT VCC C6 0.33µF 10 + R11 MSDET 5 10 k 50 k 100 k 500 k 1M Resistance R11 (Ω) Rev.5, Jun. 1999, page 53 of 89 HA12192F/HA12197F/HA12212F Series Signal Sensing Time vs. Capacitance (HA12192F/3F/4F) Signal Sensing Time (ms) 50 Vout = 0 dB Vout = –10 dB VCC = 9 V f = 5 kHz DIN MSOUT 0 dB = PBOUT = 450 mVrms 10 5.0 PBOUT MSOUT VCC C6 + 330 kΩ 1.0 MSDET 0.5 0.01 Rev.5, Jun. 1999, page 54 of 89 0.05 0.1 Capacitance C6 (µF) 0.5 1 HA12192F/HA12197F/HA12212F Series • HA12197F Series Quiescent Current vs. Supply Voltage (HA12199F/8F/7F) Quiescent Current ICC (mA) 15 NO-Signal 120 µ 70 µ 10 5 0 6 8 10 12 14 Supply Voltage (V) 16 Rev.5, Jun. 1999, page 55 of 89 HA12192F/HA12197F/HA12212F Series Input Amp. Gain vs. Frequency (HA12197F) 26 VCC = 9 V DIN PBOUT Gain (dB) 22 18 14 10 6 10 100 1k Frequency (Hz) 10 k 100 k Input Amp. Gain vs. Frequency (HA12198F) 26 VCC = 9 V DIN PBOUT Gain (dB) 22 18 14 10 6 10 Rev.5, Jun. 1999, page 56 of 89 100 1k Frequency (Hz) 10 k 100 k HA12192F/HA12197F/HA12212F Series Input Amp. Gain vs. Frequency (HA12199F) 26 DIN PBOUT VCC = 9 V 18 14 10 6 10 100 1k Frequency (Hz) 10 k 100 k Maximum Output Level vs. Supply Voltage (HA12197F) Maximum Output Level Vomax (dB) Gain (dB) 22 T.H.D. = 1% f = 1 kHz DIN PBOUT = 300 mVrms = 0 dB 25 20 15 10 6 8 10 12 14 Supply Voltage (V) 16 Rev.5, Jun. 1999, page 57 of 89 HA12192F/HA12197F/HA12212F Series Maximum Output Level vs. Supply Voltage (HA12198F) Maximum Output Level Vomax (dB) 25 T.H.D. = 1 % f = 1 kHz DIN PBOUT = 387.5 mVrms = 0 dB 20 15 10 6 8 10 12 14 Supply Voltage (V) 16 Maximum Output Level vs. Supply Voltage (HA12199F) Maximum Output Level Vomax (dB) 25 DIN PBOUT = 450 mVrms = 0 dB T.H.D. = 1 % f = 1 kHz 20 15 10 6 Rev.5, Jun. 1999, page 58 of 89 8 10 12 14 Supply Voltage (V) 16 HA12192F/HA12197F/HA12212F Series Signal to Noise Ratio vs. Supply Voltage (HA12197F) Signal to Noise Ratio S/N (dB) 85 80 DIN PBOUT = 300 mVrms = 0 dB CCIR/ARM 75 70 6 8 10 12 14 Supply Voltage (V) 16 Signal to Noise Ratio vs. Supply Voltage (HA12198F) Signal to Noise Ratio S/N (dB) 85 80 DIN PBOUT = 387.5 mVrms = 0 dB CCIR/ARM 75 70 6 8 10 12 14 Supply Voltage (V) 16 Rev.5, Jun. 1999, page 59 of 89 HA12192F/HA12197F/HA12212F Series Signal to Noise Ratio vs. Supply Voltage (HA12199F) Signal to Noise Ratio S/N (dB) 85 80 DIN PBOUT = 450 mVrms = 0 dB CCIR/ARM 75 70 6 8 10 12 14 Supply Voltage (V) 16 Total Harmonic Distortion vs. Supply Voltage (HA12197F) Total Harmonic Distortion T.H.D. (%) 0.1 0.01 DIN PBOUT 10 kHz (400 Hz HPF + 80 kHz LPF) 1 kHz (400 Hz HPF + 30 kHz LPF) 100 Hz (30 kHz LPF) 0.001 6 Rev.5, Jun. 1999, page 60 of 89 8 10 12 14 Supply Voltage (V) 16 HA12192F/HA12197F/HA12212F Series Total Harmonic Distortion vs. Supply Voltage (HA12198F) Total Harmonic Distortion T.H.D. (%) 0.1 0.01 DIN PBOUT 10 kHz (400 Hz HPF + 80 kHz LPF) 1 kHz (400 Hz HPF + 30 kHz LPF) 100 Hz (30 kHz LPF) 0.001 6 8 10 12 14 Supply Voltage (V) 16 Total Harmonic Distortion vs. Supply Voltage (HA12199F) Total Harmonic Distortion T.H.D. (%) 0.1 0.01 DIN PBOUT 10 kHz (400 Hz HPF + 80 kHz LPF) 1k Hz (400 Hz HPF + 30 kHz LPF) 100 Hz (30 kHz LPF) 0.001 6 8 10 12 14 Supply Voltage (V) 16 Rev.5, Jun. 1999, page 61 of 89 HA12192F/HA12197F/HA12212F Series Total Harmonic Distortion vs. Output Level (HA12197F) 5 Total Harmonic Distortion T.H.D. (%) VCC = 9 V 100 Hz (30 kHz LPF) 1 kHz (400 Hz HPF + 30 kHz LPF) 1.0 10 kHz (400 Hz HPF + 80 kHz LPF) DIN PBOUT = 300 mVrms = 0 dB 0.1 0.01 –15 –10 –5 0 5 10 15 Output Level Vout (dB) 20 Total Harmonic Distortion vs. Output Level (HA12198F) Total Harmonic Distortion T.H.D. (%) 5 VCC = 9 V 100 Hz (30 kHz LPF) 1k Hz (400 Hz HPF + 30 kHz LPF) 10 kHz (400 Hz HPF + 80 kHz LPF) 1.0 DIN PBOUT = 387.5 mVrms = 0 dB 0.1 0.01 –15 –10 Rev.5, Jun. 1999, page 62 of 89 –5 0 5 10 15 Output Level Vout (dB) 20 HA12192F/HA12197F/HA12212F Series Total Harmonic Distortion vs. Output Level (HA12199F) Total Harmonic Distortion T.H.D. (%) 5 1.0 VCC = 9 V 100 Hz (30 kHz LPF) 1 kHz (400 Hz HPF + 30 kHz LPF) 10 kHz (400 Hz HPF + 80 kHz LPF) DIN PBOUT = 450 mVrms = 0 dB 0.1 0.01 –15 –10 –5 0 5 10 15 Output Level Vout (dB) 20 Total Harmonic Distortion vs. Frequency (HA12197F) Total Harmonic Distortion T.H.D. (%) 0.5 VCC = 9 V DIN 0.1 PBOUT +10 dB 0 dB –10 dB 0.05 30 kHz LPF 0.01 100 400 Hz HPF + 80 kHz LPF 400 Hz HPF + 30 kHz LPF 500 1k Frequency (Hz) 5k 10 k Rev.5, Jun. 1999, page 63 of 89 HA12192F/HA12197F/HA12212F Series Total Harmonic Distortion vs. Frequency (HA12198F) 0.5 VCC = 9 V Total Harmonic Distortion T.H.D. (%) DIN PBOUT +10 dB 0 dB –10 dB 0.1 0.05 30 kHz LPF 0.01 100 400 Hz HPF + 30 kHz LPF 500 1k Frequency (Hz) 400 Hz HPF + 80 kHz LPF 5k 10 k Total Harmonic Distortion vs. Frequency (HA12199F) Total Harmonic Distortion T.H.D. (%) 0.5 VCC = 9 V DIN PBOUT +10 dB 0 dB –10 dB 0.1 0.05 30 kHz LPF 0.01 100 Rev.5, Jun. 1999, page 64 of 89 400 Hz HPF + 30 kHz LPF 500 1k Frequency (Hz) 400 Hz HPF + 80 kHz LPF 5k 10 k HA12192F/HA12197F/HA12212F Series Channel Separation vs. Frequency (L R) DIN PBOUT (HA12197F) 0 VCC = 9 V Channel Separation (dB) –20 –40 –60 –80 –100 20 40 100 400 1k Frequency (Hz) Channel Separation vs. Frequency (R L) DIN 4k 10 k 20 k PBOUT (HA12197F) 0 VCC = 9 V Channel Separation (dB) –20 –40 –60 –80 –100 20 40 100 400 1k Frequency (Hz) 4k 10 k 20 k Rev.5, Jun. 1999, page 65 of 89 HA12192F/HA12197F/HA12212F Series Channel Separation vs. Frequency (L R) DIN PBOUT (HA12198F) 0 VCC = 9 V Channel Separation (dB) –20 –40 –60 –80 –100 20 40 100 400 1k Frequency (Hz) Channel Separation vs. Frequency (R L) DIN 4k 10 k 20 k PBOUT (HA12198F) 0 VCC = 9 V Channel Separation (dB) –20 –40 –60 –80 –100 20 40 Rev.5, Jun. 1999, page 66 of 89 100 400 1k Frequency (Hz) 4k 10 k 20 k HA12192F/HA12197F/HA12212F Series Channel Separation vs. Frequency (L R) DIN PBOUT (HA12199F) 0 VCC = 9 V Channel Separation (dB) –20 –40 –60 –80 –100 20 40 100 4k 400 1k Frequency (Hz) Channel Separation vs. Frequency (R L) DIN 10 k 20 k PBOUT (HA12199F) 0 VCC = 9 V Channel Separation (dB) –20 –40 –60 –80 –100 20 40 100 400 1k Frequency (Hz) 4k 10 k 20 k Rev.5, Jun. 1999, page 67 of 89 HA12192F/HA12197F/HA12212F Series Channel Separation vs. Frequency (L R) Fin PBOUT (HA12197F) 0 VCC = 9 V Channel Separation (dB) –20 –40 70 µ –60 120 µ –80 –100 20 40 100 400 1k Frequency (Hz) Channel Separation vs. Frequency (R L) Fin 4k 10 k 20 k PBOUT (HA12197F) 0 VCC = 9 V Channel Separation (dB) –20 –40 70 µ –60 120 µ –80 –100 20 40 Rev.5, Jun. 1999, page 68 of 89 100 400 1k Frequency (Hz) 4k 10 k 20 k HA12192F/HA12197F/HA12212F Series Channel Separation vs. Frequency (L R) Fin PBOUT (HA12198F) 0 VCC = 9 V Channel Separation (dB) –20 –40 70 µ –60 120 µ –80 –100 20 40 100 400 1k Frequency (Hz) Channel Separation vs. Frequency (R L) Fin 4k 10 k 20 k PBOUT (HA12198F) 0 VCC = 9 V Channel Separation (dB) –20 –40 70 µ –60 120 µ –80 –100 20 40 100 400 1k Frequency (Hz) 4k 10 k 20 k Rev.5, Jun. 1999, page 69 of 89 HA12192F/HA12197F/HA12212F Series Channel Separation vs. Frequency (L R) Fin PBOUT (HA12199F) –10 VCC = 9 V Channel Separation (dB) –20 –40 70 µ –60 120 µ –80 –100 20 40 100 400 1k Frequency (Hz) Channel Separation vs. Frequency (R 4k L) Fin 10 k 20 k PBOUT (HA12199F) –10 VCC = 9 V Channel Separation (dB) –20 –40 70 µ –60 120 µ –80 –100 20 40 Rev.5, Jun. 1999, page 70 of 89 100 400 1k Frequency (Hz) 4k 10 k 20 k HA12192F/HA12197F/HA12212F Series −10 Crosstalk vs. Frequency (Forward Reverse) PBOUT (HA12197F) VCC = 9 V −20 Crosstalk (dB) −40 −60 70 µ −80 120 µ −100 20 −10 40 100 400 1k Frequency (Hz) Crosstalk vs. Frequency (Reverse 4k 10 k 20 k Forward) PBOUT (HA12197F) VCC = 9 V −20 Crosstalk (dB) −40 −60 70 µ −80 120 µ −100 20 40 100 400 1k Frequency (Hz) 4k 10 k 20 k Rev.5, Jun. 1999, page 71 of 89 HA12192F/HA12197F/HA12212F Series −10 Crosstalk vs. Frequency (Forward Reverse) PBOUT (HA12198F) VCC = 9 V −20 Crosstalk (dB) −40 −60 70 µ −80 120 µ −100 20 −10 40 100 400 1k Frequency (Hz) Crosstalk vs. Frequency (Reverse 4k 10 k 20 k Forward) PBOUT (HA12198F) VCC = 9 V −20 Crosstalk (dB) −40 −60 70 µ −80 120 µ −100 20 40 Rev.5, Jun. 1999, page 72 of 89 100 400 1k Frequency (Hz) 4k 10 k 20 k HA12192F/HA12197F/HA12212F Series −10 Crosstalk vs. Frequency (Forward Reverse) PBOUT (HA12199F) VCC = 9 V −20 Crosstalk (dB) −40 −60 70 µ −80 120 µ −100 20 −10 40 100 400 1k Frequency (Hz) Crosstalk vs. Frequency (Reverse 4k 10 k 20 k Forward) PBOUT (HA12199F) VCC = 9 V −20 Crosstalk (dB) −40 −60 70 µ −80 120 µ −100 20 40 100 400 1k Frequency (Hz) 4k 10 k 20 k Rev.5, Jun. 1999, page 73 of 89 HA12192F/HA12197F/HA12212F Series Ripple Rejection Ratio vs. Frequency (HA12197F) Ripple Rejection Ratio R.R.R. (dB) –20 VCC = 9 V –30 PBOUT –40 –50 EQOUT –60 –70 20 40 100 400 1k Frequency (Hz) 4k 10 k Ripple Rejection Ratio vs. Frequency (HA12198F) Ripple Rejection Ratio R.R.R. (dB) –20 VCC = 9 V –30 PBOUT –40 –50 EQOUT –60 –70 20 40 Rev.5, Jun. 1999, page 74 of 89 100 400 1k Frequency (Hz) 4k 10 k HA12192F/HA12197F/HA12212F Series Ripple Rejection Ratio vs. Frequency (HA12199F) VCC = 9 V –30 PBOUT –40 –50 EQOUT –60 –70 20 40 100 400 1k Frequency (Hz) 4k 10 k Signal to Noise Ratio vs. Supply Voltage (HA12197F) 65 Signal to Noise Ratio S/N (dB) Ripple Rejection Ratio R.R.R. (dB) –20 60 EQin PBOUT S = 300 mVrms DIN-AUDIO F 120 R 120 F 70 R 70 55 50 6 8 10 12 14 Supply Voltage (V) 16 Rev.5, Jun. 1999, page 75 of 89 HA12192F/HA12197F/HA12212F Series Signal to Noise Ratio vs. Supply Voltage (HA12198F) Signal to Noise Ratio S/N (dB) 65 60 EQin PBOUT S = 387.5 mVrms DIN-AUDIO F 120 R 120 F 70 R 70 55 50 6 8 10 12 14 Supply Voltage (V) 16 Signal to Noise Ratio vs. Supply Voltage (HA12199F) Signal to Noise Ratio S/N (dB) 65 60 EQin PBOUT S = 450 mVrms DIN-AUDIO F 120 R 120 F 70 R 70 55 50 6 Rev.5, Jun. 1999, page 76 of 89 8 10 12 14 Supply Voltage (V) 16 HA12192F/HA12197F/HA12212F Series Total Harmonic Distortion vs. Output Level (HA12197F) Total Harmonic Distortion T.H.D. (%) 5.0 VCC = 9 V EQin PBOUT = 300 mVrms = 0 dB f = 1 kHz (400 Hz HPF + 30 kHz LPF) 120 µ 70 µ 1.0 0.1 −20 −10 0 10 Output Level Vout (dB) 20 Total Harmonic Distortion vs. Output Level (HA12198F) Total Harmonic Distortion T.H.D. (%) 5.0 VCC = 9 V EQin PBOUT = 387.5 mVrms = 0 dB f = 1 kHz (400 Hz HPF + 30 kHz LPF) 120 µ 70 µ 1.0 0.1 −20 −10 0 10 Output Level Vout (dB) 20 Rev.5, Jun. 1999, page 77 of 89 HA12192F/HA12197F/HA12212F Series Total Harmonic Distortion vs. Output Level (HA12199F) Total Harmonic Distortion T.H.D. (%) 5.0 VCC = 9 V EQin PBOUT = 450 mVrms = 0 dB f = 1 kHz (400 Hz HPF + 30 kHz LPF) 120 µ 70 µ 1.0 0.1 −20 −10 0 10 Output Level Vout (dB) 20 Total Harmonic Distortion vs. Supply Voltage (1) (HA12197F) Total Harmonic Distortion T.H.D. (%) 0.5 0.1 FIN PBOUT F 120 µ Vout = +10 dB : 100 Hz (30 kHz LPF) : 1 kHz (400 Hz HPF + 30 kHz LPF) : 10 kHz (400 Hz HPF + 80 kHz LPF) 0.01 6 Rev.5, Jun. 1999, page 78 of 89 8 10 12 14 Supply Voltage (V) 16 HA12192F/HA12197F/HA12212F Series Total Harmonic Distortion vs. Supply Voltage (2) (HA12197F) Total Harmonic Distortion T.H.D. (%) 0.5 0.1 FIN PBOUT F 70 Vout = +10 dB : 100 Hz (30 kHz LPF) : 1 kHz (400 Hz HPF + 30 kHz LPF) : 10 kHz (400 Hz HPF + 80 kHz LPF) 0.01 6 8 10 12 14 Supply Voltage (V) 16 Total Harmonic Distortion vs. Supply Voltage (1) (HA12198F) Total Harmonic Distortion T.H.D. (%) 0.5 0.1 FIN PBOUT F 120 Vout = +10 dB : 100 Hz (30 kHz LPF) : 1 kHz (400 Hz HPF + 30 kHz LPF) : 10 kHz (400 Hz HPF + 80 kHz LPF) 0.01 6 8 10 12 14 Supply Voltage (V) 16 Rev.5, Jun. 1999, page 79 of 89 HA12192F/HA12197F/HA12212F Series Total Harmonic Distortion vs. Supply Voltage (2) (HA12198F) Total Harmonic Distortion T.H.D. (%) 0.5 0.1 FIN PBOUT F 70 Vout = +10 dB : 100 Hz (30 kHz LPF) : 1 kHz (400 Hz HPF + 30 kHz LPF) : 10 kHz (400 Hz HPF + 80 kHz LPF) 0.01 6 8 10 12 14 Supply Voltage (V) 16 Total Harmonic Distortion vs. Supply Voltage (1) (HA12199F) Total Harmonic Distortion T.H.D. (%) 0.5 0.1 EQin PBOUT F 120 Vout = +10 dB : 100 Hz (30 kHz LPF) : 1 kHz (400 Hz HPF + 30 kHz LPF) : 10 kHz (400 Hz HPF + 80 kHz LPF) 0.01 6 Rev.5, Jun. 1999, page 80 of 89 8 10 12 14 Supply Voltage (V) 16 HA12192F/HA12197F/HA12212F Series Total Harmonic Distortion vs. Supply Voltage (2) (HA12199F) Total Harmonic Distortion T.H.D. (%) 0.5 0.1 FIN PBOUT F 70 µ Vout = +10 dB : 100 Hz (30 kHz LPF) : 1 kHz (400 Hz HPF + 30 kHz LPF) : 10 kHz (400 Hz HPF + 80 kHz LPF) 0.01 6 8 10 12 14 Supply Voltage (V) 16 EQ-Amp. Gain vs. Frequency (HA12197F/8F/9F) 70 VCC = 9 V Gain (dB) 60 50 120 µ 40 30 20 20 70 µ 40 100 400 1k 4k Frequency (Hz) 10 k 40 k 100 k Rev.5, Jun. 1999, page 81 of 89 HA12192F/HA12197F/HA12212F Series Maximum Output Level vs. Supply Voltage (HA12197F/8F/9F) Maximum Output Level Vomax (Vrms) 6 5 4 3 2 EQin EQOUT T.H.D. = 1 % f = 1 kHz : 120 µ : 70 µ 1 0 6 8 10 12 14 Supply Voltage (V) 16 MS-Amp. Gain vs. Frequency (HA12197F) 34 Gain (dB) 28 22 MAOUT 16 VCC = 9 V MSI 10 4 20 40 100 Rev.5, Jun. 1999, page 82 of 89 400 1k Frequency (Hz) 4k 10 k 40 k 100 k HA12192F/HA12197F/HA12212F Series MS-Amp. Gain vs. Frequency (HA12198F) 34 28 Gain (dB) MAOUT 22 16 MSI VCC = 9 V 10 4 20 40 100 400 1k Frequency (Hz) 4k 10 k 40 k 100 k 40 k 100 k MS-Amp. Gain vs. Frequency (HA12199F) 34 Gain (dB) 28 22 MAOUT VCC = 9 V 16 MSI 10 4 20 40 100 400 1k Frequency (Hz) 4k 10 k Rev.5, Jun. 1999, page 83 of 89 HA12192F/HA12197F/HA12212F Series MS Sensing Level vs. Frequency (HA12197F) 10 MS Sensing Level (dB) 5 VCC = 9 V Din 1 channel input 5V 0V 0V 5V 0 –5 –10 –15 10 100 1k Frequency (Hz) 10 k 100 k MS Sensing Level vs. Frequency (HA12198F) 10 VCC = 9 V Din 1 channel input 5V 0V 0V 5V MS Sensing Level (dB) 5 0 –5 –10 –15 10 Rev.5, Jun. 1999, page 84 of 89 100 1k Frequency (Hz) 10 k 100 k HA12192F/HA12197F/HA12212F Series MS Sensing Level vs. Frequency (HA12199F) 10 VCC = 9 V Din 1 channel input 5V 0V 0V 5V MS Sensing Level (dB) 5 0 –5 –10 –15 10 100 1k Frequency (Hz) 10k 100k Rev.5, Jun. 1999, page 85 of 89 HA12192F/HA12197F/HA12212F Series Sensing Time vs. Resistance (HA12197F/8F/9F) 500 VCC = 9 V, C6 = 0.33 µF f = 5 kHz DIN PBOUT = 300 mVrms = 0 dB (HA12197F) = 387.5 mVrms = 0 dB (HA12198F) = 450 mVrms = 0 dB (HA12199F) MSOUT : 0 dB : –5dB Sensing Time (ms) 100 50 10 PBOUT MSOUT 5 2 10 k 50 k 100 k Resistance R11 (Ω) Rev.5, Jun. 1999, page 86 of 89 500 k 1M HA12192F/HA12197F/HA12212F Series Signal Sensing Time vs. Capacitance (HA12197F/8F/9F) 50 Signal Sensing Time (ms) 10 VCC = 9 V, R11 = 330 kΩ f = 5 kHz MSOUT DIN PBOUT = 300 mVrms = 0 dB (HA12197F) = 387.5 mVrms = 0 dB (HA12198F) = 450 mVrms = 0 dB (HA12199F) : 0 dB : –5 dB : –10 dB 5.0 1.0 PBOUT 0.5 0.2 0.01 MSOUT 0.05 0.1 Capacitance C6 (µF) 0.5 1.0 Rev.5, Jun. 1999, page 87 of 89 HA12192F/HA12197F/HA12212F Series Package Dimensions 21 14 28 7 6 0.13 M 0.09 0.13 +– 0.05 0.575 2.25 ± 0.10 0.10 *0.17 ± 0.05 0.15 ± 0.04 1 *0.32 ± 0.08 0.30 ± 0.06 1.40 1.70 Max 9.0 ± 0.2 9.0 ± 0.2 7.0 20 15 0.65 Unit: mm 1.0 0.575 0˚ – 8˚ 0.95 ± 0.10 0.50 ± 0.10 Hitachi Code JEDEC EIAJ Weight (reference value) *Dimension including the plating thickness Base material dimension FP-28TB — — 0.2 g 31 20 40 11 10 0.575 0.10 *Dimension including the plating thickness Base material dimension Rev.5, Jun. 1999, page 88 of 89 M *0.17 ± 0.05 0.15 ± 0.04 0.13 1.40 1.70 Max 1 *0.25 ± 0.05 0.22 ± 0.04 0.09 0.13 +– 0.05 9.0 ± 0.2 9.0 ± 0.2 7.0 30 21 0.65 Unit: mm 1.0 0.575 0˚ – 8˚ 0.50 ± 0.10 Hitachi Code JEDEC EIAJ Weight (reference value) FP-40B — Conforms 0.2 g HA12192F/HA12197F/HA12212F Series Disclaimer 1. Hitachi neither warrants nor grants licenses of any rights of Hitachi’s or any third party’s patent, copyright, trademark, or other intellectual property rights for information contained in this document. Hitachi bears no responsibility for problems that may arise with third party’s rights, including intellectual property rights, in connection with use of the information contained in this document. 2. Products and product specifications may be subject to change without notice. Confirm that you have received the latest product standards or specifications before final design, purchase or use. 3. Hitachi makes every attempt to ensure that its products are of high quality and reliability. However, contact Hitachi’s sales office before using the product in an application that demands especially high quality and reliability or where its failure or malfunction may directly threaten human life or cause risk of bodily injury, such as aerospace, aeronautics, nuclear power, combustion control, transportation, traffic, safety equipment or medical equipment for life support. 4. Design your application so that the product is used within the ranges guaranteed by Hitachi particularly for maximum rating, operating supply voltage range, heat radiation characteristics, installation conditions and other characteristics. Hitachi bears no responsibility for failure or damage when used beyond the guaranteed ranges. Even within the guaranteed ranges, consider normally foreseeable failure rates or failure modes in semiconductor devices and employ systemic measures such as failsafes, so that the equipment incorporating Hitachi product does not cause bodily injury, fire or other consequential damage due to operation of the Hitachi product. 5. This product is not designed to be radiation resistant. 6. No one is permitted to reproduce or duplicate, in any form, the whole or part of this document without written approval from Hitachi. 7. Contact Hitachi’s sales office for any questions regarding this document or Hitachi semiconductor products. Sales Offices Hitachi, Ltd. Semiconductor & Integrated Circuits. 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(Taipei Branch Office) 4/F, No. 167, Tun Hwa North Road, Hung-Kuo Building, Taipei (105), Taiwan Tel : <886>-(2)-2718-3666 Fax : <886>-(2)-2718-8180 Telex : 23222 HAS-TP URL : http://www.hitachi.com.tw Hitachi Asia (Hong Kong) Ltd. Group III (Electronic Components) 7/F., North Tower, World Finance Centre, Harbour City, Canton Road Tsim Sha Tsui, Kowloon, Hong Kong Tel : <852>-(2)-735-9218 Fax : <852>-(2)-730-0281 URL : http://www.hitachi.com.hk Copyright Hitachi, Ltd., 2000. All rights reserved. Printed in Japan. Colophon 2.0 Rev.5, Jun. 1999, page 89 of 89