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| www.fairchildsemi.com KA3084D 2-Phase BLDC Motor Driver Features * Drives the BLDC motor using 2 hall sensors. * 2-phase, full-wave drive method * Built-in thermal shutdown (TSD) circuit * Controls the motor speed through voltage * Built-in bandgap circuit * Built-in frequency Generator (FG) & Phase Generator (PG) amplifier & comparator. Description The KA3084D is a monolithic integrated circuit, and it is suitable for drum motor driver of VCR system. 22-SOP-300 Target Applications * Video cassette recorder(VCR) cylinder (drum) motor * Other 2-phase BLDC motor Ordering Information Device KA3084D Package 22-SOP-300 Operating Temp. -25C ~ +75C -25C ~ +75C KA3084DTF 22-SOP-300 Rev. 1.0.1 February. 2000. (c)2000 Fairchild Semiconductor International 1 KA3084D Pin Assignments FGAMPOUT PGAMPOUT FGOUT PGOUT VERG PGIN FGIN VCTL H2N 22 21 20 V25 19 18 17 16 15 14 13 12 KA3084D 1 GND(Signal) 2 VCC2 3 OUT2P 4 GND2(Power) 5 OUT2N 6 OUT1P 7 GND1(Power) 8 OUT1N 9 VCC1 10 H1P 11 H1N Pin Definitions Pine Number 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 Pin Name GND (Signal) VCC2 OUT2P GND2 (Power) OUT2N OUT1P GND1 (Power) OUT1N VCC1 H1P H1N H2P H2N VCTL PGOUT PGAMPOUT PGIN VREG FGIN V25 FGAMPOUT FGOUT I/O O O O O I I I I I O O I O I I/O O O Pin Function Description Ground (Signal) Power supply 2 Output drive 2(P) Power ground 2 Output drive 2(N) Power supply 1(P) Power ground 1 Output drive 1(N) Power supply 1 Hall signal input 1P Hall signal input 1N Hall signal input 2P Hall signal input 2N Voltage control (Motor speed control) Phase generator output Phase generator amp. output Phase generator input Regurated voltage Frequency generator input Reference voltage Frequency generator amp. output Frequency generator output 2 H2P KA3084D 1 21 2 3 4 5 DRIVER TSD V25 +- AMP 22 GND(Signal) HYS. COM FGOUT VCC2 FGAMPOUT 20 Internal Block Diagram OUT2P V25 GND2(Signal) FGIN 19 Supply each block 18 OUT2N VREG (5.0V) VREG 3 6 7 8 9 10 17 -+ AMP OUT1P PGIN 16 GND1(Power) DRIVER PGAMPOUT 15 OUT1N HYS. COM ICTL PGOUT 14 VCC1 Current/Voltage Control VCTL GM GM VCTL 13 H1P H2N + +- AMP AMP - 11 12 H1N H2P KA3084D Equivalent Circuits Description VCTL Pin No. 14 VREG Internal circuit ICTL 50 14 1k Motor output 3, 5, 6, 8 VCC 3 6 5 8 Hall input 10, 11, 12, 13 VREG Vcc 50 10 12 500 500 50 11 13 ICTL 4 KA3084D Equivalent Circuits (Continued) Description PG, FG amplifier Pin No. 16, 17 19, 21 VREG Internal circuit VCC VCC 50 17 19 1k V25 50 16 21 PG, FG hysteresis amplifier 3, 5, 6, 8 VCC VREG VREG VCC 10K 50 15 50 16 V25 21 22 5 KA3084D Absolute Maximum Ratings (Ta=25C) Parameter Supply voltage Maxium output current VREG output current Power dissipation Operating temperature Storage temperature Symbol VCCmax IOmax IREGmax Pd TOPR TSTG Value 18 1.0 note1 Unit V A mA W C C Remark No heat sink - 30 1 note2 -25 ~ +75 -45 ~ +125 Notes: 1. Duty 1 / 100, pulse width 500s 2. 1) When mounted on glass epoxy PCB (76.2 x 114 x 1.57mm) 2) Power dissipation reduces 8.0mW / C for using above Ta=25C. (Without heat-sink) 3) Do not exceed Pd and SOA(Safe Operating Area). Power Dissipation Curve Pd (mW) 2, 000 SOA 0 0 25 50 75 100 125 150 175 Ambient temperature, Ta [C] Recommended Operating Conditions (Ta = 25oC) Parameter Operating supply voltage Symbol VCC Min. 8 Typ. 12 Max 16 Units V 6 KA3084D Electrical Characteristics (Ta=25C, VCC=12V, unless otherwise specified) Parameter FULL CIRCUIT Quiescent current VOLTAGE REGULATOR Regulated voltage Regulated voltage HALL INPUT Hall minimum input level note Hall bias current OUTPUT DIRVE Output saturation voltage (Upper) Output saturation voltage (Lower) Output current A Output current B VOLTAGE CONTROL VCTL reference voltage note VCTL input range note Symbol IQ VREG VREG VINH IBH VSU VSL IOUTA IOUTB Condition VCC=12V VCC=12V VCC=12V, IREG=-20mA VCTL=2.0V, Hall=2.5V VCTL=4.5V VCTL=4.5V VH1P=2.6V VH1N=2.4V, VCTL=3.5V VH2P=2.6V VH2N=2.4V, VCTL=2.5V 0.48 x VREG VCTL=0 ~ VCTL VCTL=2.5V VCTL=2.8V, 3.3V IO / VCTL VH1P=2.6V, VH1N=2.4V IO Min. 4.6 4.6 50 500 500 Typ. 8.5 5.0 5.0 0.25 1.3 2.0 700 700 Max. 13 5.4 5.4 2.0 2.0 2.0 900 900 Units mA V V mVp-p A V V mA mA V25 VCTL VOFF IVCTL GM 2.0 0 -150 0.38 2.3 0 1.0 0.55 2.5 VREG +150 6.0 0.64 V V mV A A/V VCTL offset range VCTL input bias current Voltage control gain 0.55A/V(TYP) 0.48 x VREG (TYP) VCTL Notes: The note in the chart means items calculated and approved in design not the items proven by actual test result. 7 KA3084D Electrical Characteristics (Continued) (Ta=25C, VCC=12V, unless otherwise specified) Parameter FULL CIRCUIT Shutdown temperature note Temperature hysteresis FG / PG AMP Input offset voltage Input current Open loop gain note note Symbol TSD THYS VOFS IAMPIN GA VOHA VOLA VHYS VOLHYS VBHYS Condition VIN=2.5V VCC=12V, Signal=500Hz VIN=2.0V VIN=2.7 VIN=2.0V - Min. 130 65 VREG -1.48 130 7.0 Typ. 160 30 0 0.2 70 VREG -0.74 0.85 165 0.12 10 Max. 8 2.0 1.45 200 0.32 13 Units C C mV A dB V V mV V k Output high voltage Output low voltage COMPARATOR (HYSTERESIS) Hysteresis level Output low voltage Output pull-up resistance Notes: The note in the chart means items calculated and approved in design not the items proven by actual test result. 8 KA3084D Application Informations 1. A DIAGRAM SUMMARIZING THE ENTIRE SYSTEM HALL+ Hall_IN HALL- IC AMP. 4IC 2IC DRIVE If IO IC 4IC GM VCTL V/I Converter VREG TSD R2 R1 FG_IN AMP & COMP FG_OUT PG_IN AMP & COMP PG_OUT Figure 1. Figure 1 is a conceptual diagram of the KA3084D. It shows that it turns on or off depending on the signal of the hall sensor used for sensing the rotor position of motor. The AMP, GM (Feedback) and output blocks are circuits used to determine current gain of KA3084D. Furthermore, HallIN represents the hall signal switch. It supplies stable bias to each VREG block. The TSD block is a thermal shutdown circuit that protects the IC during an high temperature inside the IC. Moreover, FG. and PG. blocks output individual signals generated in the motor using the amplifier and comparator. These signals transmit motor speed and position data to controller of external servo etc. for their control. 2. CURRENT CONTROL Figure 2 simplifies figure 1. The supplied IO current drives the motor and the Ic current controls the motor speed. Figure 3 is a graph of ICTL vs. IO. 9 KA3084D ICTL AT IO Figure 2. IO IOmax AT ICOmax ICTL Figure 3. 3. VOLTAGE CONTROL Even though KA3084D command uses Ic to control the magnitude of IO, it can also use voltage. KA3084D mainly uses voltage control and has option to use current control. VCTL ICTL V/I Converter AT IO Figure 4. Figure 4 shows the principle of the voltage control. The VCTL is the motor speed control voltage, and the ICTL is converted to current through the V / I converter. Figure 5 shows the graph of VCTL vs. IO. IO IOmax AT GM 0.48 x VREG (TYP) VCTL Figure 5. 10 KA3084D Typical Performance Characteristics 5.0 4.0 VREG(V) 3.0 2.0 1.0 0.0 0 2 4 6 8 10 12 V CC(V) 14 16 18 20 VCTL = 0V 5 4 VREG(V) 3 2 1 0 -30-20-10 0 VCTL = 0V VCC = 12V 10 20 30 40 50 60 70 80 90 Temperature(C) Temperature() 1.VCC vs VREG 2.Temp. vs VREG 12 10 GM1(A/V) ICC(mA) 8 6 4 2 0 8 10 12 14 VCC(V) 16 18 0.63 0.58 0.53 0.48 0.43 0.38 8 10 12 V CC (V) 14 16 18 V CTL = 3.5V VCTL ==3.5V VCTL 3.5V RL = = 10 K RL 10K 3.VCC vs ICC 4.VCC vs GM1 900 850 800 IO (mA) 750 700 650 600 550 500 8 10 12 VCC(V) 14 16 18 IO (mA) 900 850 800 750 700 650 600 550 500 8 10 12 V CC (V) 14 16 18 VVCTL = 3.5V CTL = 3.5V RL == 10K RL 10K VCTL = 3.5V VCTL = 3.5V RL = 10K RL = 10K 5.VCC vs IOA 6.VCC vs IOB 11 KA3084D Test Circuits 3 SW24 2 1 A FG_OUT 2mA 1 GND (Signal) FGOUT 22 500A VCC ICC 2 VCC2 FGAMPOUT 21 SW22 2 1 SW23 1 2 -500A FG_AMPOUT 1 2 10(20W) 4 GND2(Power) FGIN 19 3 SW19 2 1 2 VREG 1 IREG=-20A 1 2 SW13 3 PG_IN 1 SW14 2 PG_AMPOUT SW1 3 OUT2P V25 20 SW21 2 1 2 SW20 1 FG_IN V25 ~ 1 2 1 2 SW2 5 OUT2N SW3 6 OUT1P K A 3 0 8 4 D SW18 VREG 18 PGIN 17 10(20W) 7 GND1(Power) PGAMPOUT 16 SW15 1 SW16 1 2 2 A PG_OUT 2mA -500A -500A 1 2 SW4 8 OUT1N PGOUT 15 SW17 1 2 3 9 VCC1 VCTL 14 VCTL 1 VHALL_2N 2 1 2 VHALL_1P 1 SW5 10 2 H1P H2N 13 SW10 VHALL_1N 1 SW6 11 2 SW7 H1N H2P 12 SW9 VHALL_2P SW12 + - ~ - + ~ SW8 SW11 12 KA3084D Typical Application Circuits 1 GND(Signal) FGOUT 22 2 VCC2 FGAMPOUT 21 3 OUT2P V25 20 4 GND2(Power) FGIN 19 5 OUT2N M 6 OUT1P K A 3 0 8 4 D VREG 18 PG PG_IN 17 7 GND1(Power) PGAMPOUT 16 8 VREG 9 OUT1N PGOUT 15 VCC1 VCTL 14 VCTL HALL 10 H1P H2N 13 11 H1N H2P 12 HALL 13 KA3084D 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. www.fairchildsemi.com 12/1/00 0.0m 001 Stock#DSxxxxxxxx 2000 Fairchild Semiconductor International 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. |
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