MIC23250-3BYMT TR Micrel Inc, MIC23250-3BYMT TR Datasheet - Page 13
MIC23250-3BYMT TR
Manufacturer Part Number
MIC23250-3BYMT TR
Description
High Efficiency Dual 400mA Synchronous Buck Switcher
Manufacturer
Micrel Inc
Series
HyperLight Load™r
Type
Step-Down (Buck)r
Datasheet
1.MIC23250-S4YMT_TR.pdf
(20 pages)
Specifications of MIC23250-3BYMT TR
Internal Switch(s)
Yes
Synchronous Rectifier
Yes
Number Of Outputs
2
Voltage - Output
0.9V, 1.1V
Current - Output
400mA
Frequency - Switching
4MHz
Voltage - Input
2.7 ~ 5.5 V
Operating Temperature
-40°C ~ 125°C
Mounting Type
Surface Mount
Package / Case
10-TMLF®
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Power - Output
-
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Other names
576-3255-2
Efficiency Considerations
Efficiency is defined as the amount of useful output power,
divided by the amount of power supplied.
Maintaining high efficiency serves two purposes. It
reduces power dissipation in the power supply, reducing
the need for heat sinks and thermal design considerations
and it reduces consumption of current for battery powered
applications. Reduced current draw from a battery
increases the devices operating time and is critical in hand
held devices.
Micrel, Inc.
June 2010
V
Table 1. Recommended Feedback Component Values
OUT
0.8
0.9
1.1
1.2
1.3
1.4
1.5
1.6
1.7
1.8
1.9
2.1
2.2
2.3
2.4
2.5
2.6
2.7
2.8
2.9
3.1
3.2
3.3
1
2
3
(V)
Efficiency
R
TOP
1031
1093
1154
1216
1277
1338
1400
1461
1522
1584
111
172
233
295
356
417
479
540
602
663
724
786
847
909
970
49
%
(kΩ)
=
⎛
⎜ ⎜
⎝
V
V
OUT
R
IN
BOTTOM
×
×
442
442
442
442
442
442
442
442
442
442
442
442
442
442
442
442
442
442
442
442
442
442
442
442
442
442
I
I
OUT
IN
(kΩ)
⎞
⎟ ⎟
⎠
×
100
CFF (pF)
120
120
120
120
120
120
120
120
120
120
120
120
120
120
120
120
120
120
120
120
120
120
120
120
120
120
13
There are two types of losses in switching converters; DC
losses and switching losses. DC losses are simply the
power dissipation of I
side switch during the on cycle. Power loss is equal to the
high side MOSFET R
squared. During the off cycle, the low side N-channel
MOSFET conducts, also dissipating power. Device
operating current also reduces efficiency. The product of
the quiescent (operating) current and the supply voltage is
another DC loss. The current required driving the gates on
and off at a constant 4MHz frequency and the switching
transitions make up the switching losses.
The Figure above shows an efficiency curve. From no load
to 100mA, efficiency losses are dominated by quiescent
current losses, gate drive and transition losses. By using
the HyperLight Load™ mode the MIC23250 is able to
maintain high efficiency at low output currents.
Over 100mA, efficiency loss is dominated by MOSFET
R
will increase the Gate-to-Source threshold on the internal
MOSFETs, thereby reducing the internal R
improves efficiency by reducing DC losses in the device.
All but the inductor losses are inherent to the device. In
which case, inductor selection becomes increasingly
critical in efficiency calculations. As the inductors are
reduced in size, the DC resistance (DCR) can become
quite significant. The DCR losses can be calculated as
follows:
From that, the loss in efficiency due to inductor resistance
can be calculated as follows:
Efficiency loss due to DCR is minimal at light loads and
gains significance as the load is increased. Inductor
selection becomes a trade-off between efficiency and size
in this case.
Efficiency
DSON
and inductor losses. Higher input supply voltages
DCR Loss = I
Loss
100
80
60
40
20
0.1
0
=
V
V
IN
Efficiency V
⎡
⎢
⎣
IN
OUT
1
DSON
2
= 3.3V
R. Power is dissipated in the high
−
= 2.7V
11
2
⎛
⎜ ⎜
⎝
× DCR
V
multiplied by the Switch Current
LOAD (mA)
OUT
0
V
OUT
V
×
OUT
IN
V
L = 1µH
I
OUT
= 3.6V
OUT
100
= 1.8V
×
= 1.8V
I
+
OUT
1000
L
M9999-061110-E
_
P
MIC23250
D
DSON
⎞
⎟ ⎟
⎠
⎤
⎥
⎦
×
. This
100
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