參數(shù)資料
型號: MIIC5271BM5
廠商: Micrel Semiconductor,Inc.
元件分類: 基準電壓源/電流源
英文描述: Cap-Free, NMOS, 150mA Low Dropout Regulator with Reverse Current Protection
中文描述: 無電容,NMOS管,150mA的低壓差穩(wěn)壓器的反向電流保護
文件頁數(shù): 8/10頁
文件大?。?/td> 117K
代理商: MIIC5271BM5
MIC5271
Applications Information
The MIC5271 is a general-purpose negative regulator that
can be used in any system that requires a clean negative
voltage from a negative output. This includes post regulating
of DC-DC converters (transformer based or charge pump
based voltage converters). These negative voltages typically
require a negative low dropout voltage regulator to provide a
clean output from typically noisy lines.
Input Capacitor
A 1
μ
F input capacitor should be placed from IN to GND if
there is more than 2 inches of wire or trace between the input
and the AC filter capacitor, or if a battery is used as the input.
Output Capacitor
The MIC5271 requires an output capacitor for stable opera-
tion. A minimum of 1
μ
F of output capacitance is required. The
output capacitor can be increased without limitation to im-
prove transient response. The output does not require ESR
to maintain stability, therefore a ceramic capacitor can be
used. High-ESR capacitors may cause instability. Capacitors
with an ESR of 3
or greater at 100kHz may cause a high
frequency oscillation.
Low-ESR tantalums are recommended due to the tight ca-
pacitance tolerance over temperature.
Ceramic chip capacitors have a much greater dependence
on temperature, depending upon the dielectric. The X7R is
recommended for ceramic capacitors because the dielectric
will change capacitance value by approximately 15% over
temperature. The Z5U dielectric can change capacitance
value by as much 50% over temperature, and the Y5V
dielectric can change capacitance value by as much as 60%
over temperature. To use a ceramic chip capacitor with the
Y5V dielectric, the value must be much higher than a tanta-
lum to ensure the same minimum capacitor value over
temperature.
No-Load Stability
The MIC5271 does not require a load for stability.
Enable Input
The MIC5271 comes with an enable pin that allows the
regulator to be disabled. Forcing the enable pin higher than
the negative threshold and lower than the positive threshold
disables the regulator and sends it into a “zero” off-mode
current state. In this state, current consumed by the regulator
goes nearly to zero. The MIC5271 will be in the on mode when
the voltage applied to the enable pin is either greater than the
positive threshold or less than the negative threshold.
Micrel
MIC5271
8
October 2003
-5
-4
-3
-2
-1
0
1
2
3
4
5
-3
-5
SUPPLY VOLTAGE (V)
-7
-9
-11 -13 -15
E
Enable Input
Regulator On
Regulator On
Regulator Off
Thermal Considerations
Absolute values will be used or hermal calculations o clarify
the meaning of power dissipation and voltage drops across
the part.
Proper thermal design for the MIC5271-5.0BM5 can be
accomplished with some basic design criteria and some
simple equations. The following information must be known
to implement your regulator design:
V
IN
= input voltage
V
OUT
= output voltage
I
OUT
= output current
T
A
= ambient operating temperature
I
GND
= ground current
Maximum power dissipation can be determined by knowing
the ambient temperature, T
A
, the maximum junction tem-
perature, 125
°
C, and the thermal resistance, junction to
ambient. The thermal resistance for this part, assuming a
minimum footprint board layout, is 235
°
C/W. The maximum
power dissipation at an ambient temperature of 25
°
C can be
determined with the following equation:
P
T
T
D(max)
J(max)
A
JA
=
θ
P
125 C
235 C/W
25 C
D(max)
=
P
425mW
D(max)
=
The actual power dissipation of the regulator circuit can be
determined using one simple equation.
P
D
=
(
V
IN
– V
OUT
)
I
OUT
+ V
IN
×
I
GND
Substituting P
D(max)
, determined above, for P
D
and solving
for the operating conditions that are critical to the application
will give the maximum operating conditions for the regulator
circuit. The maximum power dissipation number cannot be
exceeded for proper operation of the device. The maximum
input voltage can be determined using the output voltage of
5.0V and an output current of 100mA. Ground current, of 1mA
for 100mA of output current, can be taken from the “Electrical
Characteristics ”section of the data sheet.
425mW
V
5.0V 100mA
V
1mA
IN
IN
=
(
+
×
425mW
100mA
(
V
1mA
V
500mW
IN
IN
=
×
+
×
)
925mW
101mA
V
IN
=
×
V
9.16Vmax
IN
=
Therefore, a –5.0V application at 100mA of output current
can accept a maximum input voltage of –9.16V in a SOT-23-5
package. For a full discussion of heat sinking and thermal
effects on voltage regulators, refer to Regulator Thermals
section of Micrel’s “Designing with Low Dropout Voltage
Regulators” handbook.
相關(guān)PDF資料
PDF描述
MIIC5271-3.0BM5 Cap-Free, NMOS, 150mA Low Dropout Regulator with Reverse Current Protection
MIL-PRF-83401 MILITARY NETWORKS
MIMD10A DUAL PRE-BIASED TRANSISTORS FOR POWER MANAGEMENT
MIMD10A-7 DUAL PRE-BIASED TRANSISTORS FOR POWER MANAGEMENT
MJ14000 Bipolar NPN Device in a Hermetically sealed TO3 Metal Package
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