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LB11872H Datasheet(PDF) 10 Page - Sanyo Semicon Device |
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LB11872H Datasheet(HTML) 10 Page - Sanyo Semicon Device |
10 / 11 page LB11872H No.7257-10/11 6. Rotor Constraint Protection Circuit This IC provides a rotor constraint protection circuit to protect the IC itself and the motor when the motor is constrained physically, i.e. prevented from turning. If the FG signal (edges of one type (rising or falling edges) on the IN1 signal) does not switch within a fixed time, output drive will be turned off. The time constant is determined by the capacitor connected to the CSD pin. < time constant (in seconds) > ≈ 30.5 × 1.57 × CCSD (μF) If a 0.02 μF capacitor is used, the protection time will be about 1.05 seconds. To clear the rotor constraint protection state, the IC must be set to the stopped state or the power must be turned off and reapplied. If there is noise present on the FG signal during the constraint time, the rotor constraint protection circuit may not operate normally. 7. Phase Lock Signal (1) Phase lock range Since this IC does not include a counter or similar functionality in the speed control system, the speed error range in the phase locked state cannot be determined solely by IC characteristics. (This is because the acceleration of the changes in the FG frequency influences the range.) When it is necessary to stipulate this characteristic for the motor, the designer must determine this by measuring the actual motor state. Since speed errors occur easily in states where the FG acceleration is large, it is thought that the speed errors will be the largest during lock pull-in at startup and when unlocked due to switching clock frequencies. (2) Masking function for the phase lock state signal A stable lock signal can be provided by masking the short-term low-level signals due to hunting during lock pull-in. However, this results in the lock state signal output being delayed by the masking time. The masking time is determined by the capacitor inserted between the CSD pin and ground. < masking time (seconds) > ≈ 6.5 × 1.57 × CCSD (μF) When a 0.022 μF capacitor is used, the masking time will be about 225ms. In cases where complete masking is required, a masking time with fully adequate margin must be used. 8. Initial Reset To initially reset the logic circuits in start mode, the IC goes to the reset state when the CSD pin voltage goes to zero until it reaches 0.63V. Drive output starts after the reset state is cleared. The reset time can be calculated to a good approximation using the following formula. < reset time (seconds) > ≈ 0.13 × CCSD (μF) A reset time of over 100 μs is required. 9. Current Limiter Circuit The current limit value is determined by the resistor Rf inserted between the RF pin and ground. ILIM = VL/Rf VL = 0.59V (typical) (during acceleration) and 0.37V (typical) (during deceleration) 10. Power Supply Stabilization An adequately large capacitor must be inserted between the VCC pin and ground for power supply stabilization. If diodes are inserted in the power supply lines to prevent destruction of the device if the power supply is connected with reverse polarity, the power supply line levels will be even more easily disrupted, and even larger capacitors must be used. If high-frequency noise is a problem, a ceramic capacitor of about 0.1 μF must also be inserted in parallel. 11. VREG Stabilization A capacitor of at least 0.1 μF must be used to stabilize the VREG voltage, which is the control circuit power supply. The capacitor must be connected as close as possible to the pins. 12. Error Amplifier External Component Values To prevent adverse influence from noise, the error amplifier external components must be located as close to the IC as possible. |
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