English
Language : 

MSK5043H Datasheet, PDF (4/7 Pages) M.S. Kennedy Corporation – HIGH EFFICIENCY, 8 AMP ADJUSTABLE SURFACE MOUNT SWITCHING REGULATOR
APPLICATION NOTES CONT'D
RF HIGH:
It is very important that the DC voltage returned to the RF high pin from the output be as noise and oscillation free as possible.
This voltage helps to determine the final output and therefore must be a clean voltage. Excessive noise or oscillation can cause the
device to have an incorrect output voltage. Proper PC board layout techniques can help to achieve a noise free voltage at the RF
high pin.
OUTPUT VOLTAGE ADJUSTMENT:
The MSK 5043 has a user adjustable output voltage through the use of the AMP OUT and REF IN pins. The output voltage can
be adjusted from 1.2 volts to 5.5 volts with 2 external resistors or an external potentiometer. Refer to the following formula for
resistor divider selection:
( ) R1
VOUT = 5.762 - 6.5 R1+R2
It is possible to use a 20KΩ potentiometer between pin 9 and ground with the center tap tied to pin 6. This will allow
adjustment of the output voltage across the entire 1.2V to 5.5V range.
MODES OF OPERATION:
Under heavy loads, the MSK 5043 operates in full PWM mode. Each pulse from the oscillator sets the internal PWM latch that
turns on the high-side MOSFET. As the high-switch turns off, the synchronous rectifier latch is set. 60ns later the low-side
MOSFET turns on until the start of the next clock cycle or until the inductor current crosses zero. Under fault conditions the current
exceeds the ±100mV current-limit threshold and the high-side switch turns off.
At light loads the inductor current does not exceed the 30mV threshold set by the minimum-current comparator. When this
occurs, the MSK 5043 goes into idle mode, skipping most of the oscillator pulses in order to reduce the switching frequency and
cut back gate-charge losses. The oscillator is gated off at light loads because the minimum-current comparator immediately resets
the high-side latch at the start of each cycle. Refer to Table 1 for the operational characteristics.
ENABLE
0
1
1
1
TABLE 1
OPERATIONAL CHARACTERISTICS
LOAD
DESCRIPTION
X
LOW <10%
MED <30%
HIGH >30%
DEVICE DISABLED
PULSE SKIPPING MODE DISCONTINUOUS INDUCTOR CURRENT
PULSE SKIPPING MODE CONTINUOUS INDUCTOR CURRENT
CONSTANT FREQ. PWM MODE CONTINUOUS INDUCTOR CURRENT
TYPICAL 2.5V APPLICATION CIRCUIT
4
Rev. A 2/06