5-V Low-Drop Fixed Voltage Regulator
TLE 4271
Features
•
•
•
•
•
•
•
•
•
•
Output voltage tolerance
≤ ±
2%
Low-drop voltage
Integrated overtemperature protection
Reverse polarity protection
Input voltage up to 42 V
Overvoltage protection up to 65 V (≤ 400 ms)
Short-circuit proof
Suitable for use in automotive electronics
Wide temperature range
Adjustable reset and watchdog time
P-TO220-7-11
(P-TO220-7-1)
Type
TLE 4271
Ordering Code
Q67000-A9210-A901
Package
P-TO220-7-11
P-TO220-7-12
P-TO263-7-1
P-TO220-7-1
P-TO220-7-2
P-TO220-7-8
P-TO220-7-12
(P-TO220-7-2)
TLE 4271 S Q67000-A9244-A901
TLE 4271 G Q67006-A9195-A901
w
TLE 4271
Q67000-A9210-C801
w
TLE 4271 S Q67000-A9244-A801
w
TLE 4271 G Q67006-A9195-A801
w
Not for new design
P-TO263-7-1
(P-TO220-7-8)
Functional Description
This device is a 5-V low-drop fixed-voltage regulator. The maximum input voltage is 42 V
(65 V,
≤
400 ms). Up to an input voltage of 26 V and for an output current up to 550 mA
it regulates the output voltage within a 2 % accuracy. The short circuit protection limits
the output current of more than 650 mA. The IC can be switched off via the inhibit input.
An integrated watchdog monitors the connected controller. The device incorporates
overvoltage protection and temperature protection that disables the circuit at
unpermissibly high temperatures.
Semiconductor Group
1
1998-11-01
TLE 4271
Pin Configuration
(top view)
P-TO220-7-11
(P-TO220-7-1)
P-TO220-7-12
(P-TO220-7-2)
P-TO263-7-1
(P-TO220-7-8)
1
7
Ι
1
7
1
7
RO D Q
INH GND W
AEP01938
Ι
RO D Q
INH GND W
AEP01939
Ι
RO D Q
INH GND W
AEP02017
Figure 1
Pin Definitions and Functions
Pin
1
2
3
4
5
6
7
Symbol
I
INH
RO
GND
D
W
Q
Function
Input;
block to ground directly on the IC with ceramic capacitor.
Inhibit
Reset Output;
the open collector output is connected to the 5 V output
via an integrated resistor of 30 kΩ.
Ground
Reset Delay;
connect a capacitor to ground for delay time adjustment.
Watchdog Input
5-V Output;
block to ground with 22
µF
capacitor, ESR
<
3
Ω.
Semiconductor Group
2
1998-11-01
TLE 4271
Application Description
The IC regulates an input voltage in the range of 5.5 V <
V
I
< 36 V to
V
Qnom
= 5.0 V. Up
to 26 V it produces a regulated output current of more than 550 mA. Above 26 V the
save-operating-area protection allows operation up to 36 V with a regulated output
current of more than 300 mA. Overvoltage protection limits operation at 42 V. The
overvoltage protection hysteresis restores operation if the input voltage has dropped
below 36 V. The IC can be switched off via the inhibit input, which causes the quiescent
current to drop below 50
µA.
A reset signal is generated for an output voltage of
V
Q
< 4.5 V. The watchdog circuit monitors a connected controller. If there is no positive-
going edge at the watchdog input within a fixed time, the reset output is set to low. The
delay for power-on reset and the maximum permitted watchdog-pulse period can be set
externally with a capacitor.
Design Notes for External Components
An input capacitor
C
I
is necessary for compensation of line influences. The resonant
circuit consisting of lead inductance and input capacitance can be damped by a resistor
of approx. 1
Ω
in series with
C
I
. An output capacitor
C
Q
is necessary for the stability of
the regulating circuit. Stability is guaranteed at values of
C
Q
≥
22
µF
and an ESR of
< 3
Ω.
Circuit Description
The control amplifier compares a reference voltage, which is kept highly accurate by
resistance adjustment, to a voltage that is proportional to the output voltage and drives
the base of a series transistor via a buffer. Saturation control as a function of the load
current prevents any over-saturation of the power element.
If the output voltage decreases below 4.5 V, an external capacitor
C
D
on pin 4 (D) will be
discharged by the reset generator. If the voltage on this capacitor
V
D
drops below
V
DRL
,
a reset signal is generated on pin 2 (RO), i.e. reset output is set low. If the output voltage
rises above 4.5 V,
C
D
will be charged with constant current. After the power-on-reset time
V
D
reaches
V
DU
and the reset output will be set high again. The value of the power-on-
reset time can be set within a wide range depending on the capacity of
C
D
. The value of
the pull-up resistor at reset output is typically 30 kΩ.
After
V
D
has reached the voltage
V
DU
and reset was set to high, the watchdog circuit is
enabled and discharges
C
D
with a constant current. If there is no positive-going edge
observed at watchdog input,
C
D
will be discharged down to
V
DWL
. Then reset will be set
low and the watchdog circuit will be disabled.
C
D
will be charged with the current as at
power-on reset until
V
D
reaches
V
DU
and reset will be set high again.
If a watchdog pulse will be observed before
C
D
is discharged down to
V
DWL
, the watchdog
circuit will be enabled and
C
D
will be charged too, but reset will not be set low. After
V
D
has reached
V
DU
, the periodical behavior starts again.
Semiconductor Group
3
1998-11-01
TLE 4271
The IC also incorporates a number of internal circuits for protection against:
•
•
•
•
Overload
Overvoltage
Overtemperature
Reverse polarity
Temperature
Sensor
Saturation
Control and
Protection
Circuit
7
Ι
1
Control
Amplifier
Adjustment
Bandgap
Reference
+
-
Reset
Generator
Q
Buffer
3
R
5
D
Watchdog
2
INH
4
GND
6
W
AEB01940
Figure 2
Block Diagram
Semiconductor Group
4
1998-11-01
TLE 4271
Absolute Maximum Ratings
T
j
= – 40 to 150
°C
Parameter
Symbol
min.
Input
Voltage
Voltage
Current
Inhibit
Voltage
Voltage
Current
Reset Output
Voltage
Current
Reset Delay
Voltage
Current
Watchdog
Voltage
Current
Output
Voltage
Current
Ground
Current
Temperatures
Junction temperature
Storage temperature
Semiconductor Group
Limit Values
max.
Unit
Notes
V
I
V
I
I
I
– 42
–
–
42
65
–
V
V
mA
–
t
≤
400 ms
internally limited
V
E
V
E
I
E
– 42
–
–
42
65
–
V
V
mA
–
t
≤
400 ms
internally limited
V
R
I
R
– 0.3
–
42
–
V
mA
–
internally limited
V
D
I
D
– 0.3
–5
7
5
V
mA
–
–
V
W
I
W
– 0.3
–5
7
5
V
mA
–
–
V
Q
I
Q
– 1.0
–5
16
–
V
mA
–
internally limited
I
GND
– 0.5
–
A
–
T
j
T
stg
–
– 50
5
150
150
°C
°C
–
–
1998-11-01
