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LB2012Y100MR 数据表(PDF) 8 Page - Diodes Incorporated |
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LB2012Y100MR 数据表(HTML) 8 Page - Diodes Incorporated |
8 / 12 page APPLICATIONS Setting output voltage When connected as shown in the typical application circuit, the ZXLD1601 will produce a nominal default output of between 26V and 28V. This is set by the internal potential divider comprising of resistors R1 and R2. (See device block diagram). The internal potential divider network R1/R2 is accessible at the FB pin and can be shunted by means of external resistors to set different nominal output voltages. The potential divider defines output voltage according to the relationship: VV R R OUT FB =+ ⎛ ⎝ ⎜ ⎞ ⎠ ⎟ 1 2 1 where VFB = 1.025V. When using external resistors, these should be chosen with lower values than the internal resistors to minimize errors caused by the device to device variation in absolute value of the internal resistors ( ±30% max). The internal resistors have high values in order to minimize these errors. The following table gives suggested values for various output voltages. Once the nominal output voltage has been set, it can be adjusted to a lower value by applying a pulse width modulated (PWM) control signal to the EN pin, using one of the two methods described below. PWM adjustment permits the device to be turned on and the output voltage set by a single logic signal applied to the EN pin. No external resistors are required and the amplitude of the control signal is not critical, providing it conforms to the limits defined in the electrical characteristics. 1) PWM output voltage adjustment (analogue mode) During this mode of operation the device operation is continuous, providing a low ripple output voltage (VOUT) directly proportional to the duty cycle (D) of the logic signal applied to the EN pin according to the relationship: VOUT = D x VOUT(nom) Square wave signals applied to the EN pin, for example, will turn the device on and produce a nominal regulated output of 13.5V. The ZXLD1601 contains a timing circuit that switches the device on a few microseconds after the application of a rising edge to EN and turns it back off again nominally 120 µs after the falling edge of EN. For continuous PWM mode operation, the frequency of the control signal must therefore be maintained above 10kHz at all times, to prevent the internal delay circuit from timing out and switching the device into standby mode. The maximum frequency applied to EN should be limited to 100kHz to minimize errors due to internal switching delays 2) PWM output voltage adjustment (gated mode) This method of adjustment can be used in applications where the output ripple is less important than the supply current. The method of adjustment is the same as in 1) above, however, during this mode of operation, the device is gated on and off, providing an average output voltage (VOUT) directly proportional to the duty cycle (D) of the logic signal applied to the EN pin according to the relationship: VOUT(AVG) = D x VOUT(nom) The ripple on this voltage will be determined by the size of the output capacitor. The output voltage can be adjusted all the way down to the input voltage by either method of PWM control, but for best results, the duty cycle range should be kept within the specified range. Lower duty cycles will result in increased output ripple and non-linearity in the relationship between duty cycle and output voltage. If a greater control range is required, the nominal output can be reduced by the use of external resistors before the PWM signal is applied. Minimizing output voltage ripple For applications requiring lower output ripple it may be necessary to add a small ceramic capacitor in parallel with R2. A value of 4.7pF is suitable for most output ranges. ZXLD1601 SEMICO NDUC TORS ISSUE 3 - AUGUST 2004 8 Required output voltage External resistor across R1 External resistor across R2 5V 43K 130K 12V 56K 487K 18V 43K 649K 21V 34.8K 649K 25V 27K 620K 28V 40.2K 1.07M |
类似零件编号 - LB2012Y100MR |
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类似说明 - LB2012Y100MR |
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