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Manufacturer Part Number

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Description

Mic2950/mic2951 150ma Low-dropout Voltage Regulator

Manufacturer

Micrel Semiconductor

Datasheet

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Applications Information

Automotive Applications

The MIC2950/2951 are ideally suited for automotive ap-

plications for a variety of reasons. They will operate over a

wide range of input voltages, have very low dropout voltages

(40mV at light loads), and very low quiescent currents. These

features are necessary for use in battery powered systems,

such as automobiles. They are also “bulletproof” devices; with

the ability to survive both reverse battery (negative transients

up to 20V below ground), and load dump (positive transients

up to 60V) conditions. A wide operating temperature range

with low temperature coefﬁcients is yet another reason to use

these versatile regulators in automotive designs.

External Capacitors

A 1.5 µF (or greater) capacitor is required between the

MIC2950/MIC2951 output and ground to prevent oscillations

due to instability. Most types of tantalum or aluminum elec-

trolytics will be adequate; ﬁlm types will work, but are costly

and therefore not recommended. Many aluminum electrolytics

have electrolytes that freeze at about –30°C, so solid tantalums

are recommended for operation below –25°C. The important

parameters of the capacitor are an effective series resistance

of about 5Ω or less and a resonant frequency above 500kHz.

The value of this capacitor may be increased without limit.

At lower values of output current, less output capacitance is

required for output stability. The capacitor can be reduced to

0.5µF for current below 10mA or 0.15µF for currents below 1

mA. Using the 8-pin versions at voltages below 5V runs the

error ampliﬁer at lower gains so that more output capacitance

is needed. For the worst-case situation of a 150mA load at

1.23V output (Output shorted to Feedback) a 5µF (or greater)

capacitor should be used.

The MIC2950 will remain stable and in regulation with no load

in addition to the internal voltage divider, unlike many other

voltage regulators. This is especially important in CMOS RAM

keep-alive applications. When setting the output voltage of

the MIC2951 version with external resistors, a minimum load

of 1µA is recommended.

A 0.1µF capacitor should be placed from the MIC2950/MIC2951

input to ground if there is more than 10 inches of wire between

the input and the AC ﬁlter capacitor or if a battery is used as

the input.

Stray capacitance to the MIC2951 Feedback terminal (pin 7)

can cause instability. This may especially be a problem when

using high value external resistors to set the output voltage.

Adding a 100pF capacitor between Output and Feedback

and increasing the output capacitor to at least 3.3µF will

remedy this.

Error Detection Comparator Output

A logic low output will be produced by the comparator when-

ever the MIC2951 output falls out of regulation by more than

approximately 5%. This ﬁgure is the comparator’s built-in

offset of about 60mV divided by the 1.235V reference volt-

MIC2950/2951

age. (Refer to the block diagram on Page 1). This trip level

remains “5% below normal” regardless of the programmed

output voltage of the MIC2951. For example, the error ﬂag

trip level is typically 4.75V for a 5V output or 11.4V for a 12V

output. The out of regulation condition may be due either to

low input voltage, current limiting, thermal limiting, or overvolt-

age on input (over ≅ 40V).

Figure 1 is a timing diagram depicting the ERROR signal and

the regulated output voltage as the MIC2951 input is ramped

up and down. The ERROR signal becomes valid (low) at

about 1.3V input. It goes high at about 5V input (the input

voltage at which V

the MIC2951’s dropout voltage is load-dependent (see curve

in Typical Performance Characteristics), the input voltage trip

point (about 5V) will vary with the load current. The output

voltage trip point does not vary with load.

The error comparator has an open-collector output which

requires an external pull-up resistor. Depending on system

requirements, this resistor may be returned to the output or

some other supply voltage. In determining a value for this

resistor, note that while the output is rated to sink 200µA, this

sink current adds to battery drain in a low battery condition.

Suggested values range from 100k to 1MΩ. The resistor is

not required if this output is unused.

Programming the Output Voltage (MIC2951)

The MIC2951 may be pin-strapped for 5V (or 3.3V or 4.85V)

using its internal voltage divider by tying Pin 1 (output) to Pin

2 (sense) and Pin 7 (feedback) to Pin 6 (5V Tap). Alternatively,

it may be programmed for any output voltage between its

1.235V reference and its 30V maximum rating. An external

pair of resistors is required, as shown in Figure 2.

The complete equation for the output voltage is

where V

the feedback pin bias current, nominally –20nA. The minimum

recommended load current of 1 µA forces an upper limit of

1.2MΩ on the value of R

load (a condition often found in CMOS in standby), I

produce a 2% typical error in V

room temperature by trimming R

ing R

the resistor program current to 12 µA.

Reducing Output Noise

In some applications it may be advantageous to reduce the

AC noise present at the output. One method is to reduce

the regulator bandwidth by increasing the size of the output

capacitor. This is the only method by which noise can be re-

duced on the 3 lead MIC2950 and is relatively inefﬁcient, as

increasing the capacitor from 1µF to 220µF only decreases

the noise from 430µV to 160µV rms for a 100kHz bandwidth

at 5V output.

OUT

= V

= 100k reduces this error to 0.17% while increasing

REF

is the nominal 1.235 reference voltage and I

x { 1 + R

OUT

= 4.75—for 5.0V applications). Since

, if the regulator must work with no

} + I

OUT

. For better accuracy, choos-

which may be eliminated at

Micrel, Inc.

July 2005

will

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