www.fairchildsemi.com FAN8008 6-Channel Motor Drive IC Features Description • • • • • • • • • The FAN8008 is a monolithic integrated circuit suitable for a 6-ch motor driver which drives the tracking actuator, focus actuator, sled motor, tray motor, change motor and spindle motor of the CDP/CAR-CD systems. 4-CH balanced transformerless (BTL) driver 2-CH (forward-reverse) control DC motor driver Operating supply voltage (4.5V ~ 16V) Built-in thermal shut down circuit (TSD) Built-in under voltage lockout circuit (UVLO) Built-in over voltage protection circuit (OVP) Built-in mute circuit (CH1, CH2, CH3 and CH4) Built-in normal op-amp Built-in 3.3V regulator with reset Typical Applications • Compact disk player (CDP) with tray and changer • Video compact disk player (VCD) with tray and changer • Automotive compact disk player (CDP) with tray and changer • Other compact disk media 48-QFPH-1414 Ordering Information Device Package Operating Temp. FAN8008 48-QFPH-1414 −35°C ~ +85°C Rev. 1.0.1 February. 2000. ©2000 Fairchild Semiconductor international FAN8008 Pin Assignments IN1.1 REG50 REG050 REF SVCC RES50 48 47 45 44 43 OPIN(+)OPIN(−)OPOUT PVCC2 DO1.1 DO1.2 42 41 40 39 38 37 IN1.2 1 36 DO2.1 OUT1 2 35 DO2.2 IN2.1 3 34 PGND3 IN2.2 4 32 DO3.1 OUT2 5 32 DO3.2 IN3.1 6 31 PGND2 IN3.2 7 30 PGND1 OUT3 8 29 DO4.1 IN4.1 9 28 DO4.2 IN4.2 10 27 DO5.1 OUT4 11 26 DO5.2 CTL1 12 25 DO6.1 FAN8008 13 14 FWD1 REV1 2 46 15 16 17 18 CTL FWD2 REV2 SGND 19 20 21 22 23 24 MUTE1MUTE2 MUTE3 MUTE4 PVCC1 DO6.2 Rev. 1.0.1 February. 2000. FAN8008 Pin Definitions Pin Number Pin Name I/O Pin Function Description 1 IN1.2 I CH 1 op-amp input (−) 2 OUT1 O CH 1 op-amp output 3 IN2.1 I CH 2 op-amp input (+) 4 IN2.2 I CH 2 op-amp input (−) 5 OUT2 O CH 2 op-amp output 6 IN3.1 I CH 3 op-amp input (+) 7 IN3.2 I CH 3 op-amp input (−) 8 OUT3 O CH 3 op-amp output 9 IN4.1 I CH 4 op-amp input (+) 10 IN4.2 I CH 4 op-amp input (−) 11 OUT4 O CH 4 op-amp output 12 CTL1 I CH 5 motor speed control 13 FWD1 I CH 5 forward input 14 REW1 I CH 5 reverse input 15 CTL2 I CH 6 motor speed control 16 FWD2 I CH 6 forward input 17 REW2 I CH 6 reverse input 18 SGND - Signal ground 19 MUTE1 I CH 1 mute 20 MUTE2 I CH 2 mute 21 MUTE3 I CH 3 mute 22 MUTE4 I CH 4 mute 23 PVCC1 - Power supply voltage (For CH 5, CH 6) 24 DO6.2 O CH 6 drive output 25 DO6.1 O CH 6 drive output 26 DO5.2 O CH 5 drive output 27 DO5.1 O CH 5 drive output 28 DO4.2 O CH 4 drive output 29 DO4.1 O CH 4 drive output 30 PGND - Power ground 31 PGND - Power ground 32 DO3.2 O CH 3 drive output 33 DO3.1 O CH 3 drive output 34 PGND - Power ground 35 DO2.2 O CH 2 drive output 36 DO2.1 O CH 2 drive output 37 DO1.2 O CH 1 drive output 38 DO1.1 O CH 1 drive output 39 PVCC2 - Power supply voltage (For CH 1, CH 2, CH 3, CH 4) 40 OPOUT O Opamp output Rev. 1.0.1 February. 2000. 3 FAN8008 Pin Definitions (Continued) Pin Number 4 Pin Name I/O Pin Function Description 41 OPIN(−) I Opamp input (−) 42 OPIN(+) I Opamp input (+) 43 RES50 I Regulator 3.3V reset 44 SVCC - Signal supply voltage 45 REF I Bias voltage input 46 REG050 O Regulator 3.3V output 47 REG50 O Regulator output 48 IN1.1 I CH 1 opamp input (+) Rev. 1.0.1 February. 2000. FAN8008 Internal Block Diagram IN1.1 48 REG50 REG050 REF 47 46 45 SVCC RES50 44 43 OPIN(+) OPIN(−) OPOUT PVCC2 DO1.1 42 41 40 39 38 DO1.2 37 − IN1.2 1 OUT1 2 + + − IN2.2 4 OUT2 5 IN3.1 OUT3 − + − − + + − + − − + − + − + + − − + + − + − − + − + + − − + 6 + − IN3.2 + 3 + − + − 7 − + 35 DO2.2 34 PGND3 33 DO3.1 32 DO3.2 31 PGND2 30 PGND1 29 DO4.1 28 DO4.2 27 DO5.1 26 DO5.2 25 DO6.1 2P 2P 2P 2P 2P 2P 2P 2P 8 M S C S W IN4.1 DO2.1 T.S.D O.V.P 2.5V IN2.1 36 9 + D − D 2P 2P IN4.2 10 + M S C S W D 2P − D 2P OUT4 11 MUTE4 MUTE3 MUTE2 MUTE1 CTL1 12 13 14 15 16 17 FWD1 REV1 CTL FWD2 REV2 18 SGND 19 20 21 22 23 24 MUTE1 MUTE2 MUTE3 MUTE4 PVCC1 DO6.2 Notes: 1. SW = Logic switch 2. MSC = Motor speed control 3. D = Output driver Rev. 1.0.1 February. 2000. 5 FAN8008 Equivalent Circuit Description Pin No. Internal circuit VCC VCC 10k Input OPIN (+) OPIN (−) 48 3 1 4 6 9 7 10 48, 3, 6, 9 1, 4, 7. 10 10k 4k VCC VCC Input opout 2 5 2, 5, 8, 11 10k 8 11 Vr 25k VCC CTL 12, 15 0.1k 12 15 100k 6 Rev. 1.0.1 February. 2000. FAN8008 Equivalent Circuit (Continued) Description Pin No. Internal circuit VCC Logic drive FWD input REV input 13, 16 14, 17 13 6 30k 14 17 30k VCC CH mute 19, 20 21, 22 19 20 30k 21 22 2k VCC Logic drive output 10k 24, 25 26, 27 1k 24 25 26 27 20k 1k Vr VCC 4-CH drive output 28, 29 32, 33 35, 36 37, 38 28 29 32 33 35 36 10k 10k 37 38 1k Rev. 1.0.1 February. 2000. 7 FAN8008 Equivalent Circuit (Continued) Description Pin No. Internal circuit VCC VCC Normal opout 50 40 40 50 VCC Normal OPIN(+) OPIN(−) 42 41 VCC 41 42 5k VCC Ref 45 0.1k 45 2k 8 Rev. 1.0.1 February. 2000. FAN8008 Equivalent Circuit (Continued) Description Pin No. Internal circuit VCC RES50 50k 43 43 50k VCC 2k REG050 46 2k 41 10k 10k VCC VCC 53k REG50 47 47 10k Rev. 1.0.1 February. 2000. 9 FAN8008 Absolute Maximum Ratings (Ta=25°°C) Parameter Symbol Value Unit VCC 18 V Maximum supply voltage Power dissipation 3 PD note W Operating temperature TOPR −35 ~ +85 °C Storage temperature TSTG −55 ~ +150 °C Maximum output current IOMAX 1 A NOTE: 1. When mounted on 70mm × 70mm × 1.6mm PCB. 2. Power dissipation reduces 16mW / °C for using above Ta=25°C. 3. Do not exceed Pd and SOA. Power Dissipation Curve Pd (mW) 3,500 2,500 1,500 0 0 25 50 75 100 125 150 175 Ambient temperature, Ta [°C] Recommended Operating Conditions (Ta=25°°C) Parameter Operating supply voltage 10 Symbol Min. Typ. Max. Unit VCC 4.5 - 16 V Rev. 1.0.1 February. 2000. FAN8008 Electrical Characteristics (SVCC=PVCC1=PVCC2=8V, Ta=25°C, unless otherwise specified) Parameter Quiescent circuit current Symbol ICC Conditions Min. Typ. Max. Unit under no-load 9 12 16 mA CH mute on voltage VMON CH Pin 19, 20, 21, 22=Variation - - 0.5 V CH mute off voltage VMOFF CH Pin 19, 20, 21, 22=Variation 2 - - V −20 - +20 mV +50 mV Ω) DRIVER PART (RL=8Ω - Input offset voltage VIO Output offset voltage VOO VIN=2.5V −50 - Maximum output voltage 1 VOM1 VCC=8V, RL=8Ω 4.0 5.5 - V Maximum output voltage 2 VOM2 VCC=13V, RL=24Ω 7 9 - V Closed-loop voltage gain AVF VIN=0.1VRMS 9 10.5 12 dB Ripple rejection ratio RR VIN=0.1VRMS, f=120kHz - 50 - dB Slew rate SR Square, Vout=2Vp-p, f=120kHz - 0.8 - V/µs VOF1 - −10 - +10 mV IB1 - - - 300 nA NORMAL OPAMP PART Input offset voltage Input bias current High level output voltage VOH1 RL=50Ω 6 6.8 - V Low level output voltage VOL1 RL=50Ω - 1.0 1.8 V Output sink current ISINK1 VIN=−75dB, f=1kHz 10 40 - mA Output source current Open loop voltage gain ISOURCE1 VIN=−20dB, f=120kHz GVO1 10 40 - mA Square, Vout=2Vp-p, f=120kHz - 75 - dB VIN=−20dB, f=1kHz - 65 - dB Ripple rejection ratio RR1 Slew rate SR1 - - 1 - V/µs CMRR1 - - 80 - dB Common mode rejection ratio Rev. 1.0.1 February. 2000. 11 FAN8008 Electrical Characteristics (Continued) (SVCC=PVCC1=PVCC2=8V, Ta=25°C, unless otherwise specified) Parameter Symbol Conditions Min. Typ. Max. Unit VOF2 - −10 - +10 mV INPUT OPAMP PART Input offset voltage IB2 - - - 400 nA High level output voltage VOH2 - 7 7.7 - V Low level output voltage VOL2 - - 0.2 0.5 V Output sink current ISINK2 - 500 800 - µA - Input bias current Output source current Open loop voltage gain Slew rate Common mode rejection ratio 500 800 - µA VIN=−75dB, f=1kHz - 80 - dB Square, Vout=2Vp-p, f=120kHz - 1 - V/µs VIN=−20dB, f=1kHz - 80 - dB ISOURCE2 GVO2 SR2 CMRR2 3.3V REGULATOR PART Regulator output voltage Vreg IL=100mA 3.135 3.3 3.465 V Load regulation ∆VR1 IL=0→200mA −40 0 +10 mV Line regulation ∆VCC IL=200mA, VCC=6V→9V −20 0 +30 mV Reset on voltage Reson - - - 0.5 V Reset off voltage Resoff - 2 - - V TRAY, CHANGER DRIVER PART (RL=45Ω Ω) Input high level voltage VIH - 2 - - V Input low level voltage VIH - - - 0.5 V Output voltage 1 VO1 VCC=8V, VCTL=3.5V 5.2 6.0 6.8 V Output voltage 2 VO2 VCC=13V, VCTL=4.5V 7.5 8.5 9.5 V Output load regulation ∆VR1 - 300 700 mV Output offset voltage 1 VOO1 VIN=5V, 5V −10 - +10 mV Output offset voltage 2 VOO2 VIN=0V, 0V −10 - +10 mV 12 - Rev. 1.0.1 February. 2000. FAN8008 Application Information 1. Reference Input Pin 45 (REF) can use the reference Input pin . • Reference input In the case of the reference input pin, you must keep the applied voltage range between 2[V] and 6.5[V] at VCC = 8[V]. 2. Separated Channel Mute Function These pins are used for individual channel mute operation. • When the mute pins (pin19, 20, 21 and 22) are lowlevel, the mute circuits are activated so that the output circuit is muted. • When the voltage of the mute pins (pin19, 20, 21 and 22) are high level, the mute circuit is stopped and output circuits operate normally. • If the chip temperature rises above 175°C, then the thermal shutdown (TSD) circuit is activated and the output circuits are muted. - Mute 1 (pin 19)-CH1 mute control input pin. - Mute 2 (pin 20)-CH2 mute control input pin. - Mute 3 (pin 21)-CH3 mute control input pin. - Mute 4 (pin 22)-CH4 mute control input pin. 3. Protection Function • Thermal shutdown (TSD) If the chip temperature rises above 175°C, then the thermal shutdown (TSD) circuit is activated and the output circuit is will be mute. The TSD circuit is temperature hysteresis 25°C. • Under voltage lockout (UVLO) and over voltage protection (OVP) It is designed to mute-operate the internal bias by the function of UVLO and OVP, when the power supply voltage falls below 3.5[V] or above 20[V]. Rev. 1.0.1 February. 2000. 13 FAN8008 4. Regulator & Reset Function The regulator and reset circuits are as illustrated in Figure 1. where R1=R2. • The external circuit is composed of the transistor, KSB772 and a capacitor, about 33[µF]. The capacitor is used as a ripple eliminator and should have good temperature characteristics. • The regulator output voltage (pin 46) is decided as follows. Vout = 2 × 1.65= 3.3[V] (where R1 = R2) • When the voltage of pin 43 (Vreset) is at 3.3[V], the regulator output voltage (pin 46) because 3.3[V]. If the voltage of pin 43 is 0[V], the output voltage of pin 46 because 0[V]. VCC KSB772 REG OUT + Vreset 33µF 47 2.5V + − 46 44 43 39 R1 R2 FAN8008 Figure 1. Regulator circuit 14 Rev. 1.0.1 February. 2000. FAN8008 5. Focus, Tracking Actuator, Spindle, Sled Motor Drive Part M AP2 - Rfeed2 AP3 + + − Rfeed2 Vr IC Rref2 Rref2 − LEVEL + SHIFT Rfeed1 AP1 + − + 45 − Rref1 Vref 2 5 8 11 1 4 7 10 − + BF Vin 3 6 9 48 • The voltage, Vref is the reference voltage given by the external bias voltage of the pin 45. • The input signal (Vin) through pins 3, 6, 9 and 48 is amplified one times (Rref1 = Rfeed1) by the AP1 and then fed to the level shift. • The level shift produces the current due to the difference between the input signal and the arbitrary reference signal. The current produced as +∆I and −∆I are fed into the output amplifier, where output amplifier (AP2, 3) gain is two times (all Rref2 = Rfeed2). • If you desire to change the gain, the input buffer amplifier (BF) can be used. • The output stage is the balanced transformerless (BTL) driver. • The bias voltage Vr is expressed as below; V CC – V BE Vr = ---------------------------- [ V ] 2 Rev. 1.0.1 February. 2000. 15 FAN8008 6. Tray, Change Motor Drive Part 24 out 1 26 out 2 25 27 M D D LEVEL SHIFT M.S.C CTL1, 2 12 15 S.W IN IN FWD 13 REV 16 14 17 • Rotational direction control The forward and reverse rotational direction is controlled by FWD (pin 13, 16) and REV (pin 14, 17) input conditions are as follows. INPUT OUTPUT FWD REV OUT 1 OUT 2 State H H Vr Vr Brake H L H L Forward L H L H Reverse L L Vr Vr Brake • where Vr is (Vcc - Vbe) / 2 = 3.65V (at Vcc=8V) • where Out1 pins are pins 24 and 26, and out2 pins aer pins 25 and 27 • Motor speed control - The almost maximum torque is obtained when it is used with the pins 12 and 15 (CTL1, 2) open. - If the torque of the motor is too low, then the applied voltage at pins 12 and 15 (CTL1, 2) are 0[V]. - When motor speed controlled, the applied voltage of the pins 12 and 15 (CTL1, 2) is between 0 and 4V. Also, if the speed control is constant, the applied voltage of the pins 12 and 15 (CTL1, 2) is between 4 and 5V. - This IC's applied maximum voltage is 6V when VCC is 8V. - You must not use the applied CTL1, 2 voltage above 5.8V when VCC is 8V, and 3V when VCC is 5V. 16 Rev. 1.0.1 February. 2000. FAN8008 Typical Perfomance Characteristics Total circuit Icc(mA) Icc(mA) <Vcc vs Icc> 14 <Temp vs Icc> 13.4 13.2 13.5 13 12.8 13 12.6 12.5 12.4 12.2 12 12 11.8 Vcc=Var. Temp=25 °C 11.5 11.4 -30 11 5 6 7 8 9 10 11 12 13 Vcc=8V Temp= Var. 11.6 14 -10 0 10 30 40 50 60 70 80 Temp(°C) Vcc(V) Focus, Tracking, Spindle, Sled drive part Vom(V) Avf(dB) <Vcc vs Vom> 10.0 <Vcc vs Avf> 12.0 9.0 10.0 8.0 7.0 8.0 6.0 5.0 6.0 Vcc=Var. Temp=25 °C RL=8 Ω Vin=0.1Vrms f=1KHz 4.0 4.0 3.0 Vcc=Vari. Temp=25 °C RL=8 Ω 2.0 1.0 2.0 0.0 0.0 4 5 6 7 8 9 10 11 12 13 4 5 6 7 8 9 10 11 12 Vcc(V) Vout(V) Vcc(V) Avf(dB) <Vin vs Vout> 5.0 13 <Temp vs Avf> 10.9 4.5 10.8 4.0 3.5 10.7 3.0 10.6 2.5 vcc=8V temp= Var. RL=8 Ω Vin=0.1Vrms f=1KHz 2.0 10.5 Vcc=8V Temp=25 °C RL=8 Ω Vin= Var. 1.5 1.0 0.5 10.4 10.3 -30 0.0 0.2 0.4 0.6 0.8 1 1.2 1.4 -10 Vin(V) Rev. 1.0.1 February. 2000. 0 10 30 40 50 60 70 80 Temp (°C) 17 FAN8008 Typical Perfomance Characteristics (Continued) Vom(V) <Temp vs Vom> 5.52 5.5 5.48 5.46 5.44 5.42 5.4 5.38 vcc=8V temp= Var. RL=8Ω 5.36 5.34 5.32 -30 -10 0 10 30 40 50 60 70 80 Temp (°C) Tray, Change drive part Vo (V) Vo (V) <Vcc vs Vo> 9.0 <Temp vs Vo> 6.1 8.0 6.0 7.0 5.9 6.0 5.8 5.0 4.0 5.7 Vcc=Var. Temp=25 °C RL=45Ω Vin=5V/0V Vctl=3.5V 3.0 2.0 1.0 5.6 5.5 0.0 4 5 6 7 8 9 10 11 12 vcc=8V temp= Var. RL=45Ω Vin=5V/0V Vctl=3.5V 13 5.4 -30 -10 0 10 30 40 50 60 Vcc(V) <Vctl vs Vo> 7.0 Temp (°C) 6.0 5.0 5.0 4.0 4.0 3.0 3.0 Vcc=8V Temp=25 °C RL=45Ω Vin= 5V/0V Vctl= Var. 2.0 1.0 1.5 2 2.5 3 3.5 4 4.5 Vcc=8V Temp=25 °C RL=8Ω Vin= 5V/0V Vctl= Var. 2.0 1.0 0.0 1 <Vctl vs Vo> 7.0 6.0 5 0.0 0.5 1 1.5 2 2.5 3 3.5 4 4.5 5 Vctl(V) Vctl(V) 18 80 Vo (V) Vo (V) 0.5 70 Rev. 1.0.1 February. 2000. FAN8008 Typical Perfomance Characteristics (Continued) Regulator part Vreg (V) Vreg (V) <Vcc vs Vreg> 6.0 <Temp vs Vreg> 5.08 5.06 5.0 5.04 4.0 5.02 3.0 5.00 Vcc=Var. Temp=25 °C IL=100mA 2.0 1.0 4.96 4.94 -30 0.0 4 5 6 7 8 9 10 11 vcc=8V temp= Var. IL=100mA 4.98 12 13 -10 0 10 30 40 50 60 Vcc(V) 70 80 Temp (°C) Normal op amp part Isou1(mA) Isink1(mA) <Vcc vs Isource> 70.0 <Vcc vs Isink> 70.0 60.0 60.0 50.0 50.0 40.0 40.0 30.0 30.0 Vcc=Var. Temp=25 °C RL=50Ω 20.0 10.0 Vcc=Var. Temp=25 °C RL=50Ω 20.0 10.0 0.0 0.0 4 5 6 7 8 9 10 11 12 13 4 5 6 7 8 9 10 11 Vcc(V) GVo1(dB) <Temp vs Isource > 59.0 84.0 58.0 82.0 57.0 80.0 13 Vcc(V) Isou1(mA) <Vcc vs Open loop voltage gain> 86.0 12 56.0 78.0 55.0 Vcc=Var. Temp=25 °C RL=1KΩ Vin=100uVp_p f=1KHz 76.0 74.0 72.0 70.0 54.0 52.0 51.0 -30 68.0 4 5 6 7 8 9 10 11 12 vcc=8V temp= Var. RL=50Ω 53.0 13 -10 Vcc(V) Rev. 1.0.1 February. 2000. 0 10 30 40 50 60 70 80 Temp (°C) 19 FAN8008 Typical Perfomance Characteristics (Continued) Isink1(mA) <Temp vs Isink > 60.0 50.0 40.0 30.0 20.0 vcc=8V temp= Var. RL=50Ω 10.0 0.0 -30 -10 0 10 30 40 50 60 70 80 Temp (°C) Input op amp part Isou2(uA) Isink2(uA) <Vcc vs Isource> 2500 <Vcc vs Isink> 1600 1400 2000 1200 1000 1500 800 1000 600 Vcc=Var. Temp=25 °C RL=1 kΩ 500 Vcc=Var. Temp=25 °C RL=1 kΩ 400 200 0 0 4 5 6 7 8 9 10 11 12 13 4 Vcc(V) GVo2(uA) <Vcc vs Open loop voltage gain > 83 82 81 80 79 78 77 Vcc=Var. Temp=25 °C RL=1 kΩ 76 75 74 73 4 5 6 7 8 9 10 11 12 13 Vcc(V) 20 Rev. 1.0.1 February. 2000. 5 6 7 8 9 10 11 12 13 Vcc(V) FAN8008 Test Circuits VCC Vref 2.5V KSB772 + ~ Ripple REG OUT 100µF 1 33µF IL 2 20 O P I N OO P P I O NU T (− −) (+) 1000µF + + RL 48 47 46 45 44 43 42 41 40 39 38 37 REG050 REF SVCC RES50 OPIN(+) OPIN(−) OPOUT PVCC2 DO1.1 DO1.2 IN1.2 REG50 OPIN (+) OPIN (−) OPOUT IN1.1 Vreset 1 2 OUT1 OPIN (+) OPIN (−) OPOUT 36 DO2.1 RL DO2.2 35 3 IN2.1 PGND3 34 4 IN2.2 DO3.1 33 5 OUT2 DO3.2 32 6 IN3.1 PGND2 31 RL FAN8008 OPIN (+) OPIN (−) OPOUT 7 IN3.2 PGND1 30 8 OUT3 DO4.1 29 9 IN4.1 DO4.2 28 10 IN4.2 DO5.1 27 11 OUT4 DO5.2 FWD2 REV2 SGND MUTE1 MUTE2 MUTE3 MTUE4 PVCC1 13 14 15 16 17 18 19 20 21 22 23 12 DO6.2 CTL CTL1 REV1 OPIN (+) OPIN (−) OPOUT FWD1 RL RL 26 DO6.1 IL 25 24 IL RL CTL1 IL IN1A IL IN1B CTL2 IN2A IN2B opamp part OPIN(+) 1 SW3 2 OPOUT OPIN(−) 1 2 3 4 1M D 1k SW7 A ~ 1M B 1 10µF Rev. 1.0.1 February. 2000. 50 SW5 1 2 VCC SW6 1 2 VCC 21 FAN8008 Application Circuits 1 Voltage Mode Control VCC KSB772 REG OUT + Vreset 33µF 48 47 46 45 44 43 42 41 40 39 38 37 REG050 REF SVCC RES50 OPIN(+) OPIN(−) OPOUT PVCC2 DO1.1 DO1.2 1 REG50 IN1.2 IN1.1 FOCUS 2 OUT1 36 DO2.1 TRACKING DO2.2 35 3 IN2.1 PGND3 34 4 IN2.2 DO3.1 33 5 OUT2 DO3.2 32 6 IN3.1 PGND2 31 M SPINDLE FAN8008 7 IN3.2 PGND1 30 8 OUT3 DO4.1 29 9 IN4.1 DO4.2 28 10 IN4.2 DO5.1 27 11 OUT4 DO5.2 26 SGND MUTE1 MUTE2 MUTE3 15 16 17 18 19 20 21 22 DO6.2 REV2 14 PVCC1 FWD2 13 MTUE4 CTL 12 REV1 CTL1 FWD1 M SLED 23 24 25 M TRAY DO6.1 M CHANGE SLED SPINDLE TRACKING FOCUS REF & FOCUS TRACKING SPINDLE SLED INPUT INPUT INPUT INPUT [SERVO PRE AMP] TRAT CONTROL CHANGE INPUT TY CG INPUT Where TY is tray motor. CG is change motor [CONTROLLER] Notes: 1. Radiation pin is connected to the internal GND of the package. 2. Connect the pin to the external GND. 22 Rev. 1.0.1 February. 2000. MUTE MUTE MUTE MUTE FAN8008 Application Circuits 2 (Continued) Differential Mode Control VCC KSB772 REF REG OUT + Vreset 33µF 48 47 46 45 44 43 42 41 40 39 38 37 REG050 REF SVCC RES50 OPIN(+) OPIN(−) OPOUT PVCC2 DO1.1 DO1.2 1 REG50 IN1.2 IN1.1 FOCUS 2 OUT1 36 DO2.1 TRACKING DO2.2 35 3 IN2.1 PGND3 34 4 IN2.2 DO3.1 33 5 OUT2 DO3.2 32 6 IN3.1 PGND2 31 M SPINDLE FAN8008 7 IN3.2 PGND1 30 8 OUT3 DO4.1 29 9 IN4.1 DO4.2 28 10 IN4.2 DO5.1 27 11 OUT4 DO5.2 CTL FWD2 REV2 SGND MUTE1 MUTE2 MUTE3 MTUE4 PVCC1 DO6.2 12 REV1 CTL1 FWD1 M SLED 13 14 15 16 17 18 19 20 21 22 23 24 M TRAY 26 DO6.1 25 M CHANGE SLED SPINDLE TRACKING FOCUS PWM1 PWM2 FOCUS PWM3 PWM4 TRACKING PWM5 PWM6 SPINDLE [SERVO PRE AMP] PWM7 PWM8 SLED TRAT CONTROL CHANGE INPUT TY CG INPUT MUTE MUTE MUTE MUTE Where TY is tray motor. CG is change motor [CONTROLLER] Rev. 1.0.1 February. 2000. 23 FAN8008 DISCLAIMER FAIRCHILD SEMICONDUCTOR RESERVES THE RIGHT TO MAKE CHANGES WITHOUT FURTHER NOTICE TO ANY PRODUCTS HEREIN TO IMPROVE RELIABILITY, FUNCTION OR DESIGN. FAIRCHILD DOES NOT ASSUME ANY LIABILITY ARISING OUT OF THE APPLICATION OR USE OF ANY PRODUCT OR CIRCUIT DESCRIBED HEREIN; NEITHER DOES IT CONVEY ANY LICENSE UNDER ITS PATENT RIGHTS, NOR THE RIGHTS OF OTHERS. LIFE SUPPORT POLICY FAIRCHILD’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT OF FAIRCHILD SEMICONDUCTOR INTERNATIONAL. As used herein: 1. Life support devices or systems are devices or systems which, (a) are intended for surgical implant into the body, or (b) support or sustain life, and (c) whose failure to perform when properly used in accordance with instructions for use provided in the labeling, can be reasonably expected to result in a significant injury of the user. 2. A critical component in any component of a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system, or to affect its safety or effectiveness. www.fairchildsemi.com 12/1/00 0.0m 001 Stock#DSxxxxxxxx 2000 Fairchild Semiconductor International