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| BD7904FS Optical disc ICs 5ch Power Driver for CD-ROM, DVD-ROM BD7904FS BD7904FS is a 5-channel driver IC that integrates all drivers and 3.3V regulator necessary for CD-ROM, and DVD-ROM systems into a single chip. Low head operation can be achieved by applying the PWM driving system for sled and spindle motor drivers. !Applications CD-ROM, DVD-ROM !Features 1) 3channel BTL driver, 1channel PWM driver and 3phase motor driver. - ALL of the motor and actuator for CD-ROM, DVD-ROM etc. 2) ON/OFF for each driver, brake mode switching of spindle, and stand-by mode switching can be controlled by the two control terminals. 3) Built-in triangular-wave generator. 4) SSOP-A54 for strong head radiation. 5) Built in thermal-shut-down circuit. 6) FG 3phase synthetic output. !Absolute maximum ratings (Ta=25C) Parameter POWER MOS power suuply voltage Preblock/BTL powerblock power supply voltage PWM control block, REG power supply voltage Power dissipation Operating temperature range Storage temperature Symbol SPVM1,2,SLRNF VCC,SLVDD,AVM DVCC Pd Topr Tstg Limits 151 15 7 2.62 -35~+85 -55~+150 Unit V V V W C C 1 POWER MOS output terminals (10, 11, 18, 47, 48pin) is contained. 2 PCB (70mmx70mmx1.6mm glass epoxy) mounting. Reduced by 20.8mW for each increase in Ta of 1C over 25C. 1/18 BD7904FS Optical disc ICs !Recommended operating conditions (Ta=25C) (Set the power supply voltage taking allowable dissipation into considering) Parameter POWER MOS Power supply voltage 1 POWER MOS Power supply voltage 2 Preblock Power supply voltage Power block Power supply voltage PWM control block, REG Power supply voltage Spindle output current SL/FO/TR/LO output current Symbol SPVM1, 2 SLRNF SLVDD, VCC AVM DVCC Iosp Ioo Min. - - AVM 4.3 4.3 - - Typ. VCC3 SLVDD3 12 5.0 5.0 1.0 0.5 Max. - - 14 VCC 6.0 2.54 0.8 Unit V V V V V A A 3 Set the same supply voltage to VCC and SPVM1, 2 to SLVDD and SLRNF. 4 The current is guaranteed 3.0A in case of the current is turned on/off in a duty-ratio of less than 1/10 with a maximum on-time of 5msec. !Block diagram SLRNF SLOPI LDIN 54 53 52 51 50 49 48 47 46 45 44 VCC 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 OSC LIMIT FG REVERSE DETECT 1 HU+ 2 HU- 3 HV+ 4 HV- 5 SPVM1 6 HW+ 7 HW- 8 CTL1 9 CTL2 10 U 11 V 12 GND 13 GND 14 GND 15 GND 16 GND 17 PGND 18 W 19 VC 20 SPIN SPRNF HB SPVM2 DGND DVCC REGOUT REGNF + STBY/ BRAKE CONTROL VC - HALL BIAS 21 22 23 24 25 - + + - Current COMP FF - - + FF - - FG + PRE LOGIC LEVEL SHIFT LEVEL SHIFT LEVEL SHIFT TSD PWM OUT 3-phase MATRIX OSC Polarity COMP Current LIMIT BG (1.3V) - + 26 - - + + 27 REGGND FCOPO TKOPO + SLOPO SLVDD FCOPI TKOPI AGND FCO+ FCO- LDO+ LDO- TKO+ TKO- SLO+ SLO- GND GND GND GND GND AVM FG + 2/18 BD7904FS Optical disc ICs !Pin descriptions Pin No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 Pin name HU+ HU- HV+ HV- SPVM1 HW+ HW- CTL1 CTL2 U V GND GND GND GND GND PGND W VC SPIN SPRNF HB SPVM2 DGND DVCC REGOUT REGNF Function Hall amp. U positive input Hall amp. U negative input Hall amp. V positive input Hall amp. V negative input Spindle driver power supply 1 Hall amp. W positive input Hall amp. W negative input Driver logic control input 1 Driver logic control input 2 Spindle driver output U Spindle driver output V GND GND GND GND GND Spindle driver power ground Spindle driver output W Reference voltage input Spindle driver input Spindle driver current sense Hall bias Spindle driver power supply 2 PWM block pre-ground PWM block control power supply Regulator output voltage pin Regulator return pin Pin No. 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 Pin name REGGND TKOPI TKOPO AVM FCOPI FCOPO FCO- FCO+ TKO- TKO+ AGND GND GND GND GND GND VCC LDO- LDO+ SLO- SLO+ SLVDD SLOPO SLOPI SLRNF LDIN FG Function Regulator block ground Tracking driver OP-AMP-input Tracking driver OP-AMP output Actuator driver block power supply Focus driver OP-AMP-input Focus driver OP-AMP output Focus driver negative output Focus driver positive output Tracking driver negative output Tracking driver positive output Ground GND GND GND GND GND BTL pre and Loading power supply Loading driver negative output Loading driver positive output Sled driver negative output Sled driver positive output Sled driver PowerMOS pre-supply Sled driver OP-AMP output Sled driver OP-AMP- input Sled driver current sense Loading driver input Frequency generator output Positive/negative of the output terminals are determined in reference to those of the input terminals. 3/18 BD7904FS Optical disc ICs !Input output circuit Three-phase motor driver output 23 5 Spindle driver current detection input Hall bias 25pin 44pin 18 11 10 21 22 17 Hall signal input 25pin 25pin 25pin FG signal output 25pin 1 3 6 2 4 7 54 PWM driver output SLED 52 BTL driver output FO, TK BTL driver output LD 31pin 44pin 44pin 44pin 44pin 44pin 47 48 35 37 34 36 45 46 38 BTL driver input FO, TK PWM driver input SLED1, 2 PWM driver input Spindle 44pin 49pin 25pin 25pin 44pin 49pin 20 29 32 51 x6 x5 VC VC 4/18 BD7904FS Optical disc ICs Control signal reference voltage input PWM driver input LOADING 44pin 44pin 10k 15k 50k 19 44pin x2 53 50k 20k VC Regulator output 25pin x30 25pin 20k B.G. 26 Regulator REGNF terminal 25pin 25pin 27 51.5k 32.76k 28 Control signal input 25pin 25pin 50k 50k 8 9 50k 5/18 BD7904FS Optical disc ICs !Electrical characteristics (unless otherwise noted, Ta=25C, SLVDD=VCC=12V, DVCC=AVM=5V, VC=1.65V, SPRNF=0.33, SLRNF=0.5) Parameter Circuit current Quiescent current 1 Quiescent current 2 Quiescent current 3 Standby-on current 1 Standby-on current 2 Spindle driver block Hall bias Hall bias voltage Symbol Min. Typ. Max. Unit Conditions Circuit IQ1 IQ2 IQ3 IST1 IST2 - - - - - 11 9.5 3.5 2.2 0.65 19 16 6.5 3.7 1.0 mA mA mA mA mA VCC (Loading OFF) VCC (Loading ON) DVCC VCC DVCC Fig1, 2 Fig1, 2 Fig1, 2 Fig1, 2 Fig1, 2 VHB 0.7 - 50 1 1.2 1.6 V A mVPP V IHB=10mA Fig1, 2 Fig1, 2 Spindle driver block Hall amplifier Input bias current Minimum input level Common mode input Range IHIB VHIM VHICM 1 - - 5 - 4 Fig1, 2 Fig1, 2 Fig1, 2 Fig1, 2 Spindle driver block Torque control Input dead zone (one side) Input output gain Output ON resistor (upper) Output ON resistor (lower) Output limit current PWM frequency Spindle driver block FG output High voltage Low voltage Sled driver block Input dead zone (one side) Input output gain Output ON resistor (upper) Output ON resistor (lower) Output limit current PWM frequency Actuator driver block Output offset voltage Output saturation voltage "H" Output saturation voltage "L" Voltage gain VDZSP gmSP RONUSP RONLSL ILIMSL fosc 20 2.4 (0.8) - - 0.74 (0.24) - - - 50 3.0 (1.0) 0.6 0.35 0.95 (0.31) 100 90 3.6 (1.2) 1.0 0.7 1.16 (0.38) - - - mV A/V (V/V) A (V) kHz SPRNF=0.33 Ip=500mA Io=500mA SPRNF=0.33 Fig1, 2 Fig1, 2 Fig1, 2 Fig1, 2 VFGH VFGL 4.9 0.1 V V 100k pull up to DVCC Fig1, 2 Fig1, 2 Fig1, 2 VDZSL gmSL RONUSL RONLSL ILIMSL fosc 0 0.8 (0.4) - - 0.48 (0.24) - -50 - - 16.0 10 1.0 (0.5) 1.5 0.9 0.62 (0.31) 100 40 1.2 (0.6) 2.0 1.4 0.76 (0.38) - mV A/V (V/V) A (V) kHz Fig1, 2 SLRNF=0.5 Io=500mA Io=500mA SLRNF=0.5 Fig1, 2 Fig1, 2 Fig1, 2 Fig1, 2 VOFFT VOHFT VOLFT GVFT 0 0.45 0.45 17.5 50 0.8 0.8 19.0 mV V V dB Io=500mA Io=500mA Fig1, 2 Fig1, 2 Fig1, 2 Fig1, 2 This product is not designed for protection against redioactive rays. 6/18 BD7904FS Optical disc ICs Parameter Symbol Min. Typ. Max. Unit Conditions Circuit Sled/Actuator driver pre-operational amplifier block Input offset voltage Input bias current Common mode input range Output source current Output sink current "H" level output voltage "L" level output voltage Loading driver block Output offset voltage Output saturation voltage "H" Output saturation voltage "L" Voltage gain Regulator block ROUT pin output voltage Peak output current Load regulation Line regulation CTL1, CTL2 Input high voltage Input low voltage Others VC drop-muting VCC drop-muting VOFOP IBOP VICM IOSOOP IOSIOP VOHOP VOLOP -6 - 0.4 0.3 3 11.5 (4.5) 0 -50 - - 16.0 0 20 - - - 11.9 (4.9) 0.1 6 300 10.8 (4.0) - - - 0.4 mV nA V mA mA V V ( ) : Sled block ( ) : Sled block Fig1, 2 Fig1, 2 Fig1, 2 Fig1, 2 Fig1, 2 Fig1, 2 Fig1, 2 VOFLD VOHLD VOLLD GVLD 0 1.1 0.45 17.5 50 1.4 0.8 19.0 mV V V dB Io=500mA Io=500mA Fig1, 2 Fig1, 2 Fig1, 2 Fig1, 2 VREG IorMax VRL VVCC 3.13 - - - 3.3 - 10 3 - - 3.47 500 30 10 - 0.5 V mA mV mV Ireg=100mA, VROUT=3.3V DVCC=4.5~5.5V Fig1, 2 Fig1, 2 Fig1, 2 Fig1, 2 VIH VIL 2.0 - V V Fig1, 2 Fig1, 2 VMVC VMVCC 0.4 3.4 0.7 3.8 1.0 4.2 V V Fig1, 2 Fig1, 2 This product is not designed for protection against radioactive rays. 7/18 BD7904FS Optical disc ICs !Measurement circuits SLVM VSLRNF V DVCC SLRNF 2 SW-SL SL OUT-A1 LD OUT-A4 TK OUT-A3 FC OUT-A2 OUT+ OUT- OUT+ OUT- OUT+ OUT- OUT+ OUT- OUT OUT OUT V VFGH 100k 1 OPAMP A1 VCC OPAMP A2 AVM OPAMP A3 IN- IN- LDIN + A IQVC 54 53 52 51 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 IN- 28 OSC LIMIT FG REVERSE DETECT 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 IU+ HU+ A IV+ HV+ + A IW+ HW+ + A 2 VRNF CTL1 CTL2 SW-SP 1 VC SPIN + V RNF IHB DVCC A IU- + A IV- H- + A IW- + SPVM [ =VCC ] U V OUTSP W Fig.1 + STBY/ BRAKE CONTROL VC - HALL BIAS 21 22 23 24 25 IQDV A + - + + - Current COMP FF - - + FF - - FG + PRE LOGIC LEVEL SHIFT LEVEL SHIFT LEVEL SHIFT TSD PWM OUT 3-phase MATRIX OSC Polarity COMP Current LIMIT BG (1.3V) - + 26 - - + + + + 27 IReg 8/18 BD7904FS Optical disc ICs OPAMP OPIN- SW-OP 2 1 30k IOP 30k OPOUT V V VOOP VC VOF A IOPB IN- OUT+ V 47H RL VO SW-RL 2 1 1 2 IL SW-IL 1 SW-IL OUT- OUT-A 2 IL A2, A3, and A4 require no coil. (47H) OUTSP U V W 2 1 RLSP SW-RL 2 1 2 1 3 SW-IL IL 47H RLSP SW-RL RLSP 47H 47H Fig.2 9/18 BD7904FS Optical disc ICs !Table of measure circuit switches position 1 (VCC=SPVM=SLVM=12V, DVCC=AVM=5V, VC=1.65V, RL (act) =8, RL (SL) =8+47H, RL (SP) =2+47H, SLRNF=0.5, SPRNF=0.33, H-=2.5V, HU+=2.6V, HV+=HW+=2.4V) Designation Circuit current IQ1 IQ2 IQ3 IST1 IST2 Sled driver block VDZSL gmSL RONUSL RONLSL ILIMSL fosc INPUT VIN CTL 1 2 SWITCH RL SP SL IL OP Conditions Measure point - - - - - L H L L L H L H L L 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Check VSLRNF with no output at VIN=VC Check VSLRNF with output at VIN=VC40mV IQVC IQVC IQDV IQVC IQDV *1 *2 3.3V (0V) 0V (3.3V) 3.3V (0V) 1.45 H H H H H H H H H H H H 2 2 1 1 2 2 1 1 1 1 1 1 1 1 2 2 1 1 1 1 2 2 1 1 1 1 1 1 1 1 VSLRNF VSLRNF See bellow ILSL=500mA ILSL=-500mA 12V - VOSL + (-) RON= 0.5A RON= VOSL + (-) 0.5A OUT+ (-) OUT+ (-) VSLRNF VOSL+ lop Iosp Iosl VRNF1/RNF Iop VRNF4/RNF VRNF3/RNF VRNF2/RNF SPRNF=0.33 SLRNF=0.5 VIN Iosp or Iosl VIN4 VIN3 Dead zone VIN2 VIN1 Iop...the peak current of Iosp or Iosl Time 2 Sled driver VIN1=240mV, VIN2=140mV VIN3=-140mV, VIN=-240mV gm (+) = ( VSLRNF1 - VSLRNF2 ) / 0.5 240mV - 140mV VSLRNF4 - VSLRNF3 gm (-) = ( ) / 0.5 240mV - 140mV 4 Spindle driver VIN1=150mV, VIN2=100mV VIN3=-100mV, VIN=-150mV VSPRNF1 - VSPRNF2 ) / 0.33 150mV - 100mV VSPRNF4 - VSPRNF3 gm (-) = ( ) / 0.33 150mV - 100mV gm (+) = ( 10/18 BD7904FS Optical disc ICs !Table of measure circuit switches position 2 (VCC=SPVM=SLVM=12V, DVCC=AVM=5V, VC=1.65V, RL (act) =8, RL (SL) =8+47H, RL (SP) =2+47H, SLRNF=0.5, SPRNF=0.33, H-=2.5V, HU+=2.6V, HV+=HW+=2.4V) Designation INPUT VIN CTL 1 2 SWITCH RL SP SL IL OP Conditions Measure point Spindle driver block Hall bias VHB 1.65V H H 1 1 1 1 1 IHB=10mA Pin 22 Hall amplifier IHIB 1.65V H H 1 1 1 1 1 Current flowing in each terminal at H-=2.5V, HW+=2.7V (2.3V), HV=2.5V IU+ (-), IV+ (-), IW+ (-) Torque command VDZSP gmSP RONUSP RONLSP ILIMSP fosc FG VFGH VFGL 3 4 3.3V 3.3V 3.3V 1.85 L L H H H H H H H H H H 2 2 1 1 2 2 1 1 2 2 1 1 1 1 1 1 1 1 1 1 2 2 1 1 1 1 1 1 1 1 2 Check VRNF with no output at VIN=VC20mV Check VRNF with output at VIN=VC90mV VSPRNF VSPRNF OUTU, V, W OUTU, V, W VSPRNF VOSPU See 10 of 18 previous page ILSP=500mA ILSP=-500mA RON = 12V - VOSP 0.5A RON = VOSP 0.5A 1.65V 1.65V H H H H 1 1 1 1 1 1 1 1 1 1 HU+=2.6V, HV+=2.4V, HW+=2.4V HU+=2.6V, HV+=2.6V, HW+=2.4V VFG VFG 5 Condition of input HU+ 2.4V 2.6V 2.6V 2.6V 2.4V 2.4V HV+ 2.6V 2.4V 2.6V 2.4V 2.6V 2.4V HW+ 2.6V 2.6V 2.4V 2.4V 2.4V 2.6V U Source Sink Hi-Z Sink Source Hi-Z V Hi-Z Source Sink Hi-Z Sink Source W Sink Hi-Z Source Source Hi-Z Sink Condition IOSPU=500mA IOSPV=500mA IOSPW=500mA IOSPU=-500mA IOSPV=-500mA IOSPW=-500mA Measure point VOSPU VOSPV VOSPW VOSPU VOSPV VOSPW 11/18 BD7904FS Optical disc ICs !Table of measure circuit switches position 3 (VCC=SPVM=SLVM=12V, DVCC=AVM=5V, VC=1.65V, RL (act) =8, RL (SL) =8+47H, RL (SP) =2+47H, SLRNF=0.5, SPRNF=0.33, H-=2.5V, HU+=2.6V, HV+=HW+=2.4V) Designation INPUT VIN CTL 1 2 SWITCH RL SP SL IL OP Conditions Measure point Actuator driver block VOFFT VOHFT VOLFT GVFT 1.65V 3.3V (0V) 0V (3.3V) 0.25V H H H H H H H H 2 1 1 2 1 1 1 1 1 1 1 1 1 2 2 1 1 1 1 1 VO IL=500mA IL=-500mA 20log |(VO - VOFFT) / 0.25)| 5-OUT+ (-) OUT+ (-) VO Loading driver block VOFLD VOHLD VOLLD GVLD 1.65V 3.3V (0V) 0V (3.3V) 0.25V - 1.65V - - 0V 5V - - - - H H H H L L L L 2 1 1 2 1 1 1 1 1 1 1 1 1 2 2 1 1 1 1 1 VO IL=500mA IL=-500mA 20log |(VO - VOFFT) / 0.25)| 12-OUT+ (-) OUT+ (-) VO Pre-operational amplifier block VOFOP IBOP IOSOOP IOSIOP VOHOP VOLOP Regulator block VREG IorMax VRL VVCC CTL1, CTL2 VIH VIL Others VMVC VMVCC H H H H H H H H 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Pin27 Pin27 H H H H H H H H H H H H 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 2 2 2 2 1 1 VOF IOPB IOP=320A IOP=-4mA VOF VOF VOOP VOOP Ireg=100mA DVCC=4.5V~5.5V Pin27 Pin27 1.65V 1.65V L H L H 2 2 1 1 1 1 1 1 1 1 Check active at "H"=2.0 Check stand-by at "L"=0.5 IQVC IQVC 1.65V 1.65V H H H H 1 1 1 1 1 1 1 1 1 1 Check all output at VC=0.7V Check all output at VCC=3.8V OUTPUT OUTPUT 12/18 BD7904FS Optical disc ICs !Circuit operation 1. Driver control terminal 1 and 2 (pin 8 and pin 9) All the drivers and spindle-drive braking mode can be switched on/off by inputting combinations of H-level signal (higher than 2V) and L-level signal (lower than 0.5V) to these terminals. CTL1 (Pin8) L H - CTL2 (Pin9) L L H ... ON ... OFF Spindle Sled Focus Tracking Loading Regulator 1) 2) CTL1 (Pin8) L H CTL2 (Pin9) H H SPIN > VC Forward-rotation mode Forward-rotation mode SPIN < VC Reverse-rotation braking mode Short-circuit braking mode 3) 4) 1) Standby mode All blocks except for the regulator are standby-mode. 2) Drivers muting All the output channels except the loading are muted and there outputs are turn off. 3) Reverse-rotation braking mode (spindle) A reverse-rotation torque is applied when SPIN < VC. Reverse-rotation is detected with SPIN input and Hall input. If the spindle detects reverse rotation when SPIN < VC, all the outputs are shorted out to GND. 4) Short-circuit braking mode (spindle) All the spindle driver outputs are shorted out to GND when SPIN < VC. 5) Regulator Regulator actives in all the mode. 13/18 BD7904FS Optical disc ICs 2. Input/output timing chart HU+ HU- FWD FWD REV FWD HV+ HV- HW+ HW- SPIN Vref SOURCE U Hi-Z SINK SOURCE V Hi-Z SINK SOURCE W Hi-Z SINK ABCDEF ) Forward rotation mode GH I JKL ) Reverse protect ) Short brake ) Reverse rotation brake 14/18 BD7904FS Optical disc ICs ) Forward-rotation mode In this mode, the disc rotation is started and accelerated. When forward-rotation signal inputs from the Hall elements to the positive spindle-drive input terminals (SPIN > VC), the spindle-drive output terminals output forward torque signal. Hall amplifier input (forward rotation) HU+ A B C D E F L L L H H H HU- H H H L L L HV+ L H H H L L HV- H L L L H H HW+ H H L L L H HW- L L H H H L U Hi-Z Source Source Hi-Z Sink Sink SPIN > VC V Source Hi-Z Sink Sink Hi-Z Source W Sink Sink Hi-Z Source Source Hi-Z Source=PWM , ) Braking mode In this mode, the disc rotation is decelerated and stopped. Reverse-rotation braking When the forward-rotation signal inputs from the Hall elements to the negative spindle-drive input terminals (SPIN < VC), the spindle-drive output terminals output reverse torque signal. Hall amplifier input (forward rotation) HU+ G H I J K L L L L H H H HU- H H H L L L HV+ L H H H L L HV- H L L L H H HW+ H H L L L H HW- L L H H H L U Hi-Z Sink Sink Hi-Z Source Source SPIN < VC V Sink Hi-Z Source Source Hi-Z Sink W Source Source Hi-Z Sink Sink Hi-Z Source=PWM 3. Hall inputs (pin 1 to 4, 6, 7) and Hall bias (pin 22) (Spindle) Hall elements can be connected either in series or in parallel. Set the Hall input voltage to 1.0 to 4.0V. VCC VCC HU HU HV HW HV HW 22pin Parallel connection 22pin Series connection 15/18 BD7904FS Optical disc ICs 4. Torque command (spindle: pin 20, sled motor: pin 50) / output current detection terminals (spindle: pin 21, sled motor: pin 52) The relation between the torque command input and the output current detection terminals input is expressed as shown below: SPRNF SLRNF FWD rotation Dead zone + Dead zone - VC SPIN SLIN1, 2 The input-output gain (gm) and the output-limit current (ILIM) depend on the resistance of RNF (output current detection resistor). Please refer to the following expression. The gain to drive the spindle or the sled motor can be decreased by connecting a resistor in series to each input terminal. Gain expression Spindle Input-output gain gm (A/V) Output-limit current Ilim (A) 1.0/RNF 0.3/RNF Sled 0.5/RNF 0.3/RNF 0.5x47k/{SLRNFx(Rin+47k)} Rin : added series resistor Gain with the added resistor gm (A/V) 15k/{SPRNFx(Rin+15k)} 5. PWM oscillation frequency The PWM oscillation for driving the spindle and sled is free running. The oscillating frequency is 100kHz (typ.). 6. Regulator 3.3V is possible by connecting REGNF (27 pin) with REGOUT (26 pin). And, adjust by your inserting resistance when you use it in other voltage. OUT1=BG{R1 (R2+R3+R4) +R2 (R3+R4)}/R2R4 OUT1 R1 R2 R3 + - BG (1.3V) R4 R3=51.5k R4=32.76k 16/18 BD7904FS Optical disc ICs 7. Muting functions a) VC-drop muting When the voltage at VC terminal (pin 19) drops to a value lower than 0.7V (typ.), the outputs of all the channels are turned off. Set the VC terminal voltage to larger than 1.0V. b) VCC-drop muting When the voltages at DVCC terminal (pin 25) and VCC terminal (pin 44) drop to lower than 3.8V (typ.), the outputs of all the channels are turned off. The hysteresis voltage width is 80mV (typ.). 8. Thermal-shutdown A thermal-shutdown circuit (over-temperature protection circuit) is built in to prevent the IC from thermal breakdown. Use the IC under the thermal loss allowed to the package. In case the IC is left running over the allowable loss, the junction temperature rises, and the thermal-shutdown circuit works at the junction temperature of 175C (typ.) (the outputs of all the channels are turned off). When the junction temperature drops to 150C (typ.), the IC start operating again. !Application example SLVM=12V SLED IN FOCUS IN TRACKING IN LOADING IN SLRNF FG SLED LOADING M M TRACKING VCC=12V FOCUS AVM=5V 54 53 52 51 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 OSC LIMIT FG REVERSE DETECT 1 2 3 4 5 6 7 8 9 SPINDLE 10 11 12 13 14 15 16 17 18 19 20 HALL1 HALL2 HALL3 -COM -COM VC SPINDLE IN REGOUT DVCC=5V RNF SPVM=12V Fig.3 + STBY/ BRAKE CONTROL VC - HALL BIAS 21 22 23 24 25 - + + - Current COMP FF - - + FF - - FG + PRE LOGIC LEVEL SHIFT LEVEL SHIFT LEVEL SHIFT TSD PWM OUT 3-phase MATRIX OSC Polarity COMP Current LIMIT BG (1.3V) - + 26 - + - + + + 27 17/18 BD7904FS Optical disc ICs !Operation notes (1) Wiring for SPRNF and SLRNF Considering the wiring resistance, connect each detecting resistor as close as possible to the current detection terminals for the spindle drive SPRNF (pin 21) and the sled motor drive SLRNF (pin 52) of the IC. (2) Current detection reference voltage The detection of current in the spindle and sled involves the detection of voltage between the detection resistances, but as the reference voltage of internal circuit, the voltage applied to VCC (pin 44) is used by the spindle and that applied to SLVDD (pin 49) by the sled. For this reason, be sure to apply VCC (pin 44) to the spindle and SLVDD (pin 49) to the sled according to the corresponding power supply voltages to prevent voltage differences. (3) Bypass capacitor Please connect a bypass capacitor (1F) across the supply voltage lines close to the IC pins. (4) Supply fault, ground fault, and short-circuit between output terminals Do not short-circuit between any output pin and supply pin (supply fault) or ground (ground fault), or between any output pins (load short-circuit). When mounting the IC on the circuit board, be extremely cautions about the orientation of the IC. If the orientation is mistaken, the IC may break down, and produce smoke in some cases. !Electrical characteristic curves POWER DISSIPATION : Pd (W) 3 2.6W 2 1 0 0 25 50 75 100 125 150 AMBIENT TEMPERATURE : Ta (C) On less than 25.7% (percentage occupied by copper foil), 70x70mm2, t=1.6mm glass epoxy mounting. Fig.4 Power dissipation !External dimensions (Units : mm) 22.00.2 54 28 13.40.3 11.40.2 4.00.2 1 27 2.20.1 6.00.2 0.150.1 0.1 0.8 0.360.1 0.1 SSOP-A54 0.3Min. 18/18 |
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