L4949
OPERATING DESCRIPTION
The L4949 is a monolithic integrated low dropout voltage
regulator. Several outstanding features and auxiliary
functions are implemented to meet the requirements of
supplying microprocessor systems in automotive
applications. Nevertheless, it is suitable also in other
applications where the present functions are required. The
modular approach of this device allows the use of other
features and functions independently when required.
Figure 13. Output Voltage versus Supply Voltage
Vout
Vout
5.0 V
Voltage Regulator
The voltage regulator uses an isolated Collector Vertical
PNP transistor as a regulating element. With this structure,
very low dropout voltage at currents up to 100 mA is
obtained. The dropout operation of the standby regulator is
maintained down to 3.0 V input supply voltage. The output
voltage is regulated up to the transient input supply voltage of
35 V. With this feature no functional interruption due to
overvoltage pulses is generated.
The typical curve showing the standby output voltage as a
function of the input supply voltage is shown in Figure 13.
The current consumption of the device (quiescent current)
is less than 200 µA.
To reduce the quiescent current peak in the undervoltage
region and to improve the transient response in this region,
the dropout voltage is controlled. The quiescent current as a
function of the supply input voltage is shown in Figure 14.
Short Circuit Protection:
The maximum output current is internally limited. In case
of short circuit, the output current is foldback current limited
as described in Figure 12.
0 V 2.0 V
5.0 V
35 V
VCC
Figure 14. Quiescent Current versus Supply Voltage
3.0
2.5
TJ = 25°C
2.0
1.5
RL = 100 Ω
1.0
0.5
RL = 5.0 k
Figure 12. Foldback Characteristic of Vout
10
0
0
5.0
10
15
20
25
30
VCC, SUPPLY VOLTAGE (V)
5.0
0
20
100
Iout (mA)
Preregulator
To improve the transient immunity a preregulator stabilizes
the internal supply voltage to 6.0 V. This internal voltage is
present at Pin 3 (VZ). This voltage should not be used as an
output because the output capability is very small (≤ 100 µA).
This output may be used as an option when better
transient behavior for supply voltages less than 8.0 V is
required. In this case a capacitor (100 nF – 1.0 µF) must be
connected between Pin 3 and Gnd. If this feature is not used
Pin 3 must be left open.
200
6
MOTOROLA ANALOG IC DEVICE DATA