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| Ordering number: EN5233 Monolithic Digital IC LB8109M Actuator Driver for Portable CD Players Overview The LB8109M is an actuator driver IC designed for portable CD players that operate at 2.4 V (two Ni-Cd batteries) or 3.0 V (two dry cells). Package Dimensions unit : mm 3148-QIP44MA [LB8109M] SANYO : QIP44MA Functions and Features . H bridge drivers (output dynamic range maximum is about 2 V) on chip for four channels to drive each CD actuator (the focus tracking coil, motor, and the sled motor). . coil, the circuit (voltagethe spindleby an external resistor) on chip that is used to apply voltage to the CD DSP, ASP and Step-up to be set . . . . . . . . . . microcontroller. Center-tap coil for step-up circuit makes it possible to supply the driver control voltage. (However, the drive Tr, L, C, and Di are all external.) Oscillator circuits for each converter on chip. (C and R are external.) Four-channel driver control output is divided into two groups (the focus/tracking group and the spindle/sled group) for minimum loss at double-speed play. Higher operating voltage in each group is converted to power supply of each 2ch H bridge driver by PMW conversion. (However, the PWM PNP-Tr, NPN-Tr, L, C, and Di are all external.) Sled motor driving mode is switchable between step drive mode for lower power dissipation, and normal V-type drive mode. (The other three channels are fixed to V-type.) In the spindle motor drive circuit, the control gain can be doubled for double-speed play. (Switching port provided.) PWM step-down circuit for external power operates when external power (8 V or more) is supplied. In this function, external power is converted to VCC power supply, and two type voltage setting is possible. In play mode, step-up voltage for DSP has to be set lower than VCC, but in charging the battery, it has to be set higher than VCC. So step-down voltage (VCC) setting of two types is possible with two pairs of external resistor. (Switching port is provided.) (However, the PWM PNP-Tr, NPN-Tr, L, C, and Di are all external.) Battery pulse charging function on chip. (However, the drive NPN-Tr, and the current feedback C and R are external.) Having one 358-type OP amplifier on chip, it is suitable for a variety of applications. (Power supply: VCD) The system can be started up and stopped by outputs from the microcontroller. Actuator muting function on chip (for all four channels simultaneously). Thermal shutdown circuit on chip. SANYO Electric Co.,Ltd. Semiconductor Bussiness Headquarters TOKYO OFFICE Tokyo Bldg., 1-10, 1 Chome, Ueno, Taito-ku, TOKYO, 110 JAPAN 13096HA (II) No.5233-1/9 LB8109M Specifications Absolute Maximum Ratings at Ta = 25 C Parameter Maximum supply voltage VCD pin input voltage H bridge output current Allowable power dissipation Operating temperature Storage temperature Symbol VCCmax VCDmax IOUTmax Pd max Topr Tstg Maximum per channel is 400 mA. Independant IC Conditions Ratings 7 10 800 700 -20 to +75 -55 to +150 Unit V V mA mW C C Allowable Operating Ranges at Ta = 25C Parameter Supply voltage VCD pin input voltage VCC drop setting voltage when external voltage input is applied Symbol VCC VCD VCC(EXT) Conditions Ratings 1.6 to 5.0 3.6 to 9.0 3.0 to 5.0 Unit V V V Electrical Characteristics at Ta = 25 C, VCC = 3 V, VCD = 4 V Parameter Symbol [Power Supply Block] Standby current drain ICCO VCC no-signal current drain ICC VCD no-signal current drain ICD [Externally set step-up circuit] ASP drive output current IO ASPDRV Reference voltage of step-up Vref ASP circuit IB V ASP VASP pin input bias current UPBASE pin saturation VO UPBASE voltage Load regulation RLD ASP Line regulation RLN ASP Minimum off duty Dmin ASP [S/S Pin Function] S/S start voltage VSSON S/S off voltage VSSOFF [H Bridge Output Block, PWM Block] Output saturation voltage VH sat VOUT pin maximum output VOUT max voltage PWM applied offset voltage VPWMOFF DNB - 1,2 pins output current Io DNB1,2 Load regulation RLDVOUT Line regulation RLNVOUT [Drive Control Block] CH1 to 4 input voltage range VIN1-4 ASP REF input voltage range VASPR Input bias current IB IN Input offset voltage Voff IN CH1,2,4 transfer gain G124IN CH3 L side transfer gain G3LIN CH3 H side transfer gain G3HIN Conditions S/S = [H], the total of VCC and VCD S/S = [L], VCC line only S/S = [L], with no driver input VASP = 1 V Determined at ASP drive pin VASP = 1.5 V IO = 1 mA VASP = 3.5 V, L = 30 H, C = 220 F VASP = 3.5 V, L = 30 H, C = 220 F 20 2.2 1.23 min typ max 20 10.0 8.0 3.4 1.33 200 0.2 Unit A mA mA mA V nA V 7.0 5.0 2.8 1.28 1000 mV/A 100 mV/V % VCC-1.0 V V V V V A 1000 mV/A 100 mV/V V V A mV dB dB dB 0.29 VCC-0.5 IO = 200 mA, TOP + BOTTOM 0.30 2.25 At mute state (each output = 0) VOUT = max, L = 30 H VOUT = max, L = 30 H 0.5 1.2 Each VIN = VASP REF = 2 V VASP REF = 2 V RL = 10 RL = 10 RL = 10 -30 7.1 7.1 13.6 0.23 0.26 VOUT/600 0.45 VCD-0.5 VCD-1.3 2.0 +30 8.3 9.5 8.3 9.5 14.8 16.0 Continued on next page. No.5233-2/9 LB8109M Continued from preceding page. Parameter Negative/positive transfer gain difference Input dead zone voltage range G-SELECT pin low-gain side selection voltage G-SELECT pin high-gain side selection voltage [SLED Drive Circuit] SL REF pin input voltage range SL REF pin input bias current Positive side setting offset voltage between IN4 and SL REF Dual side step width difference voltage SL MODE pin high voltage SL MODE pin low voltage [Muting Block] Mute on voltage Mute off voltage [OP Amplifier Block] Input offset voltage Input bias current for each input Common-mode input voltage range Open-loop voltage gain [External Voltage Input Block] Minimum operating input voltage when external voltage input is applied EXTDRV pin output current VZ pin voltage VZ pin inflow current VEXT, VEXT-CHG pin Input bias current VEXT, VEXT-CHG pin Step-up circuit reference voltage EXTBASE pin saturation voltage [OSC Block] OSCPWR pin output voltage Maximum oscillation frequency Input bias current [Pulse Charging Function] Internal reference voltage CHG-ON pin ON voltage CHG-ON Pin OFF voltage CHG-MON pin input bias current CHGDRV pin output current [TSD Block] Operating temperature Temperature hysteresis width Symbol GIN VDZ VGSELL-TH VGSELH-TH RL = 10 RL = 10 , output voltage difference 5 mV or less Conditions min -1.0 0 2.0 1.0 typ 0 max +1.0 30 Unit dB mV V V VSL REF IB SL REF Voff SL REF VSL DIFF VH SL MODE VL SL MODE VON MUTE VOFF MUTE VOFF OP IB OP VCM OP GV OP at f = 10 kHz OPin(+) = OPin(-) = 2 V VSL REF = 2 V VSL REF = 2.3 V, VASP REF = 2 V VSL REF = 2.3 V, VASP REF = 2 V VASP REF+0.1 VCD-1.0 200 V nA mV mV V V V V mV nA V dB -20 -25 2.0 +20 +25 1.0 2.0 1.0 -5 +5 200 VCD-1.5 31 34 37 VI EXT IO EXT DRV VZ IVZ IB EXTCHG IB EXT VrefE-CHG Vref EXT VEXTBASE VOSCPWR FOSC max IB OSC VCHG REF VCHG-ON VCHG-OFF IB CHG MON IO CHG DRV TTSD TTSD RIN = 1 k VEXT = 1 V (CHG-ON [L]) VEXT = 10 V, RIN = 1 k VEXT = 1.5 V VEXT-CHG = 1.5 V (CHG-ON [H]) Both determined at EXTDRV pin EXT-CHG side: CHG-ON [H] IO = 1 mA 8.0 170 6.4 210 6.9 250 7.4 20 200 1.23 1.28 1.33 0.2 VCC-0.15 100 V A V mA nA V V V kHz A V V V nA mA C C VOSC = 0 V -2.0 0.32 2.0 0.35 0.38 1.0 VCHG MON = 0.3 V VCHG MON = 0 V Design target value, Note 1 Design target value, Note 1 2.4 3.0 180 20 200 3.6 Note 1: For parameters which have an entry of ``design target value'' in the ``Conditions'' column, no measurements are made. No.5233-3/9 LB8109M Allowable power dissipation, Pd max -- W Pd max -- Ta Ambient temperature, Ta -- C Pin Assignment No.5233-4/9 LB8109M Pin Functions Pin No. 1, 2 32, 33 Symbol IN1, IN2 IN3, IN4 Equivalent circuit Function Actuator control signals for each driver: IN1: Focus, IN2: Tracking, IN3: Spindle, IN4: Sled. These signals are input from the ASP (DSP). to 30 ASPREF Control reference signal input pin for each driver. This signal is input from the ASP (DSP). 43, 42 41, 40 38, 37 36, 35 OUT1+, 1- OUT2+, 2- OUT3+, 3- OUT4+, 4- Focus coil actuator drive output pins. Tracking coil actuator drive output pins. Spindle motor drive output pins. Sled motor drive output pins. (Each channel includes built-in spark killer diodes.) Power supply pins for the H bridge driver. VOUT1 is for the focus/tracking group and VOUT2 is for the spindle/sled group. Maximum value + ( : saturation voltage of upper/lower output Tr) of control output for each 2CH is set by external PWM step-down circuit. Power supply for the actuator driver controller, maximum value circuit for PWM, sled controller, and MUTE block. Base drive output pin for the external NPN-Tr for the battery pulse charging circuit. Base drive output pin for the external step-down NPN-Tr used when external voltage input is applied. Base drive output pin for the PNP-Tr for the step-down PWM that generates the power supply for the H bridge driver that drives the focus/tracking group actuators. Base drive output pin for the PNP-Tr for the step-down PWM that generates the power supply for the H bridge driver that drives the spindle/sled group actuators. Base drive output pin for the external NPN-Tr for the step-up circuit that sets the external voltage for the DSP. 3 31 VOUT1 VOUT2 4 VCD 5 CHGDRV 10 EXTDRV 15 DNB-1 Constant current value of each 16 DNB-2 Constant-current circuit which changes with the input of CH1 through 4. (3 mA max) 17 ASPDRV Continued on next page. No.5233-5/9 LB8109M Continued from preceding page. Pin No. 6 Symbol CHG MON Equivalent circuit Function Constant-current feedback input pin for the charging circuit. The charging current is determined by comparing this input voltage and the internal reference voltage (0.35 V typ.). Connection pin for the resistor that is used to set the voltage for the external step-down circuit. This prevents invalid current at no power supply. GND pin for small-signal block. (GND except output power Tr) Input pin for the free-running oscillation circuit that is used to operate the PWM step-down circuit and step-up circuit. The oscillating frequency is determined by external CR. CR power supply pin that is used to prevent invalid current for the oscillation circuit in standby mode. Voltage feedback input pin for the external power supply step-down circuit. VCC for playback is set by comparing this pin voltage with the internal reference voltage (1.28 V typ.). Voltage feedback input pin for the external power supply step-down circuit. VCC for charging is set by comparing this pin voltage with the internal reference voltage (1.28 V typ.). Voltage feedback input pin for the step-up circuit. The step-up voltage is determined by comparing this pin voltage with the internal reference voltage (1.28 V typ.). Connection pin for the resistor that is used to set the voltage of the step-up circuit. This prevents invalid current in standby mode. 13 EXTBASE 7 8 GND OSC 9 OSCPWR 11 VEXT 12 VEXTCHG 18 VASP 19 UPBASE Continued on next page. No.5233-6/9 LB8109M Continued from preceding page. Pin No. 20 VZ Zener diode Reference voltage startup circuit S/S function shant External power input Forced startup Symbol Equivalent circuit Function Input pin for start-up circuit when an external voltage input is applied. The external voltage input is applied through a resistor inserted in series. The voltage is basically determined by the Zener diode + 2VBE; this pin has a current draining capacity up to 20 mA. LB8109M start-up input. (Start on a low-level input.) Inverting input pin for internal OP amplifier. Noninverting input pin for internal OP amplifier. Output pin for internal OP amplifier. The output circuit type is ``push-pull.'' Pin for selecting battery charging when external voltage input is applied. This pin determines the drop voltage for the external voltage input. When low, the drop voltage set by VEXT is selected; when high, the drop voltage set by VEXT-CHG is selected. Input pin for simultaneously muting the drivers for the four channels. (High: mute) Pin for switching the spindle driver transfer gain between 8.3 dB and 14.8 dB (typ. value each). (Low: high gain) Pin for switching the sled driver between V-type control and step control. (High: V-type control; low: step control) Power supply voltage pin. Threshold input pin for driving the sled motor stepwise. Both the positive and negative step levels (with positive-negative symmetry) are determined by the voltage differential between the pin voltage and the ASPREF pin voltage. 24 S/S 21 OPIN- 22 OPIN+ 23 OPOUT 14 CHG-ON 25 MUTE 26 G-SELECT 27 SLMODE 28 29 33 VCC SLREF IN4 39 PGND Output Tr. GND for the fourchannel H bridge drivers. This pin is not internally connected to the small-signal system GND. Continued on next page. No.5233-7/9 Oscillation blocking Oscillation blocking Oscillation blocking Oscillation blocking Abs. value amp. Abs. value amp. Abs. value amp. Bidirectional SW & Drive control Bidirectional SW & Drive control Bidirectional SW & Drive control Abs. value amp. Bidirectional SW & Drive control Offset Error amplifier Buffer Supply (approx. 3.5 V) to DSP, ASP, etc. Thermal circuit Error amplifier Offset Error amplifier Focus & Tracking Dead time Clamp Clamp Buffer Inversion detection Mute circuit Maximum value circuit Maximum value circuit Spindle and sled Block Diagram and Sample Application Circuit Coil with center tap Using high hfe LB8109M Battery Power supply to control stage (Shaded blocks) External power input Jack S/S trigger control Judge ext. power/battery Dual-side step drive circuit 1.2 V output Start-up with external voltage input ASP power supply Forced start-up control Error amplifier Error amplifier Approx. 0.3 V S/S reactive output Sawtooth waveform oscillation circuit Dead time Start-up Bias to internal block Set when charging Op amp. Playback setting Approx. 3.3 V Approx. 4.3 V Dead time Current feedback resistance Battery pulse charging circuit No.5233-8/9 Note: It should be noted that Type Nos., contants specified herein are for example only, with no guarantee for characteristics implied. LB8109M Supplementary Explanation 1. VCD supply The VCD line is the power supply for the driver control blocks of channels 1 to 4. The VCD line can be supplied from the DSP step-up circuit by using a coil with center tap (as shown in the Block Diagram). However, because the allowable operating range for VCD is 3.6 V to 9.0 V, it is recommended that in order to reduce power dissipation, the voltage should be set to the low end of this range. (Even if this power supply does not affect the control performance such as the transfer gain.) Sled step drive Stepping control in this IC for the sled actuator is as described below. Normal V-type control is used if the SLMODE pin is set high, but by setting this pin low it is possible to use step drive mode, which has a marked effect in reducing power dissipation. (This only affects channel 4.) The step drive starting level is input from the SLREF pin (only a voltage higher than ASPREF will be accepted), and the positive side step start is determined by comparing the input voltage with IN4. For the negative side, the step start is determined automatically by setting the differential voltage between the SLREF and the ASPREF on the opposite side, and then comparing that voltage to IN4. In other words, the control characteristics become as defined by the solid line in the diagram below. (The rise on the positive and negative steps has no hysteresis.) 2. Voltage between outputs SLREF (greater than ASPREF) If this voltage is set, the negative side step start is determined automatically by setting the differential voltage betwwen SLREF and ASPREF on the opposite side as well. No products described or contained herein are intended for use in surgical implants, life-support systems, aerospace equipment, nuclear power control systems, vehicles, disaster/crime-prevention equipment and the like, the failure of which may directly or indirectly cause injury, death or property loss. Anyone purchasing any products described or contained herein for an above-mentioned use shall: 1 Accept full responsibility and indemnify and defend SANYO ELECTRIC CO., LTD., its affiliates, subsidiaries and distributors and all their officers and employees, jointly and severally, against any and all claims and litigation and all damages, cost and expenses associated with such use: 2 Not impose any responsibility for any fault or negligence which may be cited in any such claim or litigation on SANYO ELECTRIC CO., LTD., its affiliates, subsidiaries and distributors or any of their officers and employees jointly or severally. Information (including circuit diagrams and circuit parameters) herein is for example only; it is not guaranteed for volume production. SANYO believes information herein is accurate and reliable, but no guarantees are made or implied regarding its use or any infringements of intellectual property rights or other rights of third parties. This catalog provides information as of January, 1996. Specifications and information herein are subject to change without notice. No.5233-9/9 |
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