Motor driver ICs Single-phase full-wave motor driver BA6427F The BA6427F is a single-phase full-wave motor driver for fan motors. By using this driver, a single-phase, full-wave motor driver circuit can be built with fewer components than a circuit using operational amplifiers. Lock detection and automatic restart mechanisms, which are required for fan motors, are also built in. A rotational-speed sensing output pin is provided for Ho output. Applications Single-phase, full-wave fan motors Features 1) Equipped with lock detection and rotational-speed sensing functions. 2) Compact SOP-8 package reduces the number of external components for a reduced mounting area. 3) Automatic restart when the motor lock is undone. Absolute maximum ratings (Ta = 25C) Recommended operating conditions 763 Motor driver ICs Block diagram Pin descriptions Truth table 764 BA6427F Motor driver ICs BA6427F Electrical characteristics (unless otherwise noted, Ta = 25C, VCC = 5V) 765 Motor driver ICs BA6427F Lock detection The automatic restart circuit detects a motor lock condition and automatically turns off the output power. When the lock condition is cleared, the IC automatically restarts and allow the motor to run. In the BA6427F, automatic restart is performed as follows. A motor lock condition is detected when the Hall signal stops switching. The output is OFF when the LD pin is being charged. (1) The HO pin outputs a signal synchronized with the Hall signal. (2) The HO pin is an open collector output. The time required for the external capacitor at the LD pin to charge or discharge when the motor is locked varies with the capacitor size. The charge and discharge times are obtained by: C (VLDCL – VLDCP) TON (charge time) = ILDC C (VLDCL – VLDCP) TOFF (discharge time) = ILDD C is the capacitance of the external capacitor connected to the LD pin, VLDCL is the LD pin clamp voltage (1.93V Typ.), (0.76V Typ.), VLDCP is the LD pin comparator voltage ILDC is the LD pin charge current (2.9µA Typ.), (0.48µA Typ.). ILDD is the LD pin discharge current For C = 0.47µF, for example, the charge and discharge times are 0.19 s (output ON) and 1.15 s (output OFF), respectively. The timing of the LD pin is shown in Fig.1. Operation notes (1) Thermal shutdown circuit The IC has a built-in thermal shutdown circuit. There is a degree of hysteresis in the TSD circuit. The circuit is activated at the temperature of about 175C (typical), so that all outputs are turned OFF. The circuit is deactivated when the temperature drops to about 150C, and normal operation resumes. (With the typical values, there is a hysteresis of 25C.) (2) Current consumption The power dissipated by the IC varies widely with the supply voltage and the output current. Make sure that your application does not exceed the allowable power dissipation of the IC package. (3) Hall input pins (H, H) (1) The values of the Hall device bias resistors (see the block diagram) must be set so as to maintain the Hall amplifier input bias voltage within the range of 0V to VCC-2V, including the signal amplitude. It is recommended that the same value be used for both resistors so that the Hall device output signal centered around VCC / 2 is input to the IC. (2) Be careful of the input signal for the Hall inputs of this IC have no hysteresis. (4) ASO Make sure that the output current will not exceed the absolute maximum rating or the ASO value. (5) Ground pin potential Be sure to keep the GND potential lower than the potentials of the other pins. 766 Motor driver ICs BA6427F Electrical characteristic curves External dimensions (Units: mm) 767