MIC5271-3.0YM5-TR 查看數據表(PDF) - Microchip Technology
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MIC5271-3.0YM5-TR Datasheet PDF : 20 Pages
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MIC5271
4.0 APPLICATION INFORMATION
The MIC5271 is a general-purpose negative voltage
regulator that can be used in a system that requires a
clean negative voltage. This includes the post
regulation of DC/DC converters (transformer or charge
pump based voltage converters). These negative
voltages typically require a negative low dropout
voltage regulator to provide a clean output from noisy
input power.
4.1 Input Capacitor
A 1 µF input capacitor should be placed from –IN to
GND if there is more than two inches of wire or trace
between the input and the AC filter capacitor or if a
battery is used as the input.
4.2 Output Capacitor
The MIC5271 requires an output capacitor for stable
operation. A minimum of 1 µF of output capacitance is
required. The output capacitor can be increased
without limitation to improve 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 3Ω or greater at 100 kHz can cause a
high-frequency oscillation.
Low-ESR tantalums are recommended due to the tight
capacitance tolerance 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
tantalum to ensure the same minimum capacitor value
over temperature.
4.3 No-Load Stability
The MIC5271 does not require a load for stability.
4.4 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,
typically drawing only ±1 µA. 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.
ENABLE INPUT
5
4
REGULATOR ON
3
2
1
0
REGULATOR OFF
–1
–2
–3
REGULATOR ON
–4
–5–3 –5 –7 –9 –11 –13 –15
SUPPLY VOLTAGE (V)
FIGURE 4-1:
Positive and Negative
Enable Voltage vs. Supply Voltage.
4.5 Thermal Considerations
Absolute values will be used for thermal calculations to
clarify the meaning of power dissipation and voltage
drops across the part.
Proper thermal design for the MIC5271-5.0YM5 can be
accomplished with some basic design criteria and
some simple equations. The following information must
be known to implement your regulator design:
• VIN = Input voltage
• VOUT = Output voltage
• IOUT = Output current
• TA = Ambient operating temperature
• IGND = Ground current
Maximum power dissipation can be determined by
knowing the ambient temperature (TA), the maximum
junction temperature (+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 Equation 4-1 and Equation 4-2:
DS20005881A-page 10
2017 Microchip Technology Inc.
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