EUP7967A-12VIR1 EUTECH [Eutech Microelectronics Inc], EUP7967A-12VIR1 Datasheet - Page 7
EUP7967A-12VIR1
Manufacturer Part Number
EUP7967A-12VIR1
Description
300mA Low-Noise Low-Dropout Linear Regulator
Manufacturer
EUTECH [Eutech Microelectronics Inc]
Datasheet
1.EUP7967A-12VIR1.pdf
(9 pages)
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
EUP7967A-12VIR1
Manufacturer:
EUTECH
Quantity:
20 000
Application Information
External Capacitors
Like any low-dropout regulator, the EUP7967A requires
external capacitors for regulator stability. The EUP7967A
is specifically designed for portable applications
requiring minimum board space and smallest components.
These capacitors must be correctly selected for good
performance.
Input Capacitor
A minimum input capacitance of 1µF is required between
the EUP7967A input pin and ground (the amount of the
capacitance may be increased without limit).This
capacitor must be located a distance of not more than
1cm from the input pin and returned to a clean analog
ground.
Any good quality ceramic, tantalum, or film capacitor
may be used at the input. If a tantalum capacitor is used
at the input, it must be guaranteed by the manufacturer to
have a surge current rating sufficient for the application.
No-Load Stability
The EUP7967A will remain stable and in regulation with
no external load. This is specially important in CMOS
RAM keep-alive applications.
Output Capacitance
The EUP7967A is specifically designed to employ
ceramic output capacitors as low as 2.2µF. Ceramic
capacitors below 10µF offer significant cost and space
savings, along with high frequency noise filtering. Higher
values and other types and of capacitor may be used, but
their equivalent series resistance (ESR) should be
maintained below 0.5Ω. Ceramic capacitor of the value
required by the EUP7967A are available in the following
dielectric types: Z5U, Y5V, X5R, and X7R. The Z5U and
Y5V types exhibit a 50% or more drop in capacitance
value as their temperature increase from 25°C, an
important consideration. The X5R generally maintain
their capacitance value within ± 20%. The X7R type are
desirable for their tighter tolerance of 10% over
temperature.
DS7967A Ver 1.4 Sep. 2007
7
Noise Bypass Capacitor
An external 10nF bypass capacitor at BP pin conjunction
with an internal resistor creates lowpass filter. Increasing
the capacitance will decrease the output noise. This cap is
connected directly to a high impedance node in the
bandgap reference circuit. Any significant loading on this
node will cause a change on the regulated output voltage.
For this reason, DC leakage current through this pin must
be kept as low as possible for best output voltage
accuracy. The types of capacitors best suited for the noise
bypass capacitor are ceramic and film.
Unlike many other LDO’s , addition of a noise reduction
capacitor does not effect the load transient response of
the device. However, it does affect start-up time. The
smaller the capacitance value, the quicker the start-up
time.
Power Dissipation and Junction Temperature
Specified regulator operation is assured to a junction
temperature
temperature should be restricted to 125°C under normal
operating conditions. This restriction limits the power
dissipation the regulator can handle in any given
application. To ensure the junction temperature is within
acceptable limits, calculate the maximum allowable
dissipation, P
must be less than or equal to P
The maximum-power-dissipation limit is determined
using the following equation:
Where:
T
R
package
T
The regulator dissipation is calculated using:
Power dissipation resulting from quiescent current is
negligible. Excessive power dissipation triggers the
thermal protection circuit.
Shutdown
The EUP7967A goes into sleep mode when the
pin is in a logic low condition. During this condition, the
pass transistor, error amplifier, and bandgap are turned
off, reducing the supply current to 60nA typical. The
on.
SHDN
JMAX
A
θJA
is the ambient temperature.
is the thermal resistance junction-to-ambient for the
is the maximum allowable junction temperature.
pin may be directly tied to V
P
D(max)
P
D(max)
D
of
=
, and the actual dissipation, P
=
(
I V
125°C;
T
J
−
max
R
V
θJA
O
−
EUP7967A
)
T
×
the
D(max)
A
I
O
maximum
IN
to keep the part
SHDN
D
junction
, which
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