MIC5191YMM Micrel Inc, MIC5191YMM Datasheet - Page 13
MIC5191YMM
Manufacturer Part Number
MIC5191YMM
Description
IC CTRLR LDO/FILTER HS 10MSOP
Manufacturer
Micrel Inc
Type
Positive Adjustabler
Datasheet
1.MIC5191YMM.pdf
(15 pages)
Specifications of MIC5191YMM
Number Of Outputs
1
Voltage - Output
Adjustable
Current - Supply
15mA
Voltage - Input
1 ~ 5.5 V
Operating Temperature
-40°C ~ 125°C
Package / Case
10-MSOP, Micro10™, 10-uMAX, 10-uSOP
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Other names
576-1245
The transient response also contributes to the overall AC
output voltage deviation. Figure 12 shows a 1A to 10A
load transient. The top trace is the output of the
switching regulator (same circuit as Figure10). The
output voltage undershoots by 100mV. Just by their
topology, linear regulators have the ability to respond at
much higher speeds than a switching regulator. Linear
regulators do not have the limitation or restrictions of
switching regulators which must reduce their bandwidth
to less than their switching frequency.
Using the MIC5191 as a filter for a switching regulator
reduces output noise due to ripple and high frequency
switching noise. It also reduces undershoot (Figure 12)
and over-shoot (Figure 13) due to load transients with
decreased capacitance.
Due to the high DC gain (80dB) of the MIC5191, it also
adds increased output accuracy and extremely high load
regulation.
Distributed Power Supply
As technology advances and processes move to smaller
and smaller geometries, voltage requirements go down
and current requirements go up. This creates unique
challenges when trying to supply power to multiple
devices on a board. When there is one load to power,
the difficulties are not quite as complex; trying to
distribute power to multiple loads from one supply is
much more problematic.
Micrel, Inc.
December 2006
Figure 13. Transient Response
13
If a large circuit board has multiple small-geometry
ASICs, it will require the powering of multiple loads with
its one power source. Assuming that the ASICs are
dispersed throughout the board and that the core voltage
requires a regulated 1V, Figure 14 shows the long traces
from the power supply to the loads. Not only do we have
to contend with the tolerance of the supply (line
regulation,
temperature tolerances), but the trace lengths create
additional issues with resistance and inductance. With
lower voltages these parasitic values can easily bump
the output voltage out of a usable tolerance.
But by placing multiple, small MIC5191 circuits close to
each load, the parasitic trace elements caused by
distance to the power supply are almost completely
negated. By adjusting the switching supply voltage to
1.2V, for example, the MIC5191 will provide accurate 1V
output, efficiently and with very little noise.
Figure 15. Improved Distributed Supplies
load
Switching
Switching
Supply
Supply
Power
Power
Load
Load
Figure 14. Board Layout
regulation,
MIC5191
Circuit Board
Circuit Board
Load
MIC5191
MIC5191
Load
MIC5191
output
Long Traces
Load
Load
Load
Load
accuracy
M9999-122206
MIC5191
and
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