ZETEX ZLDO500

5.0 VOLT ULTRA LOW DROPOUT
REGULATOR
ZLDO500
ISSUE 2 - JULY 1997
DEVICE DESCRIPTION
FEATURES
The ZLDO Series low dropout linear
regulators operate with an exceptionally
low dropout voltage, typically only 30mV
with a load current of 100mA. The regulator
series features output voltages in the range
2.7 to 18 volts, this device provides an output
voltage of 5.0 volts.
•
•
•
•
•
•
•
•
•
•
•
The ZLDO500 consumes a typical quiescent
current of only 1mA at its maximum rated
output current of 300mA. A battery low flag
is available to indicate potential power fail
situations. If the input voltage falls to within
200mV of the regulated output voltage then
the error output pulls low. The device also
features an active high disable control. Once
disabled the ZLDO quiescent current falls to
typically 11µA.
Very low dropout voltage
6mV dropout at 10mA output
30mV dropout at 100mA output
100mV dropout at 300mA output
5.0 volt fixed output
Other voltages available
Low quiescent current
1mA quiescent at 300mA output
Low battery flag
Shutdown control
Surface mount package
APPLICATIONS
•
•
•
•
•
The ZLDO devices are packaged in Zetex
SM8 8 pin small outline surface mount
package, ideal for applications where space
saving is important. The device low dropout
voltage, low quiescent current and small size
make it ideal for low power and battery
powered applications. Battery powered
circuits can make particular use of the low
battery flag and shutdown features.
Battery powered devices
Portable instruments
Portable communications
Laptop/Palmtop computers
Electronic organisers
Low Battery Flag
Vin
LOW BATTERY
COMPARATOR
THERMAL
SHUTDOWN
Vo
OUTPUT
DRIVE
BIAS
Shutdown
Control
CIRCUIT
Cs
SHUTDOWN
BANDGAP
REFERENCE
Shaping
Gnd
4-80
ZLDO500
ABSOLUTE MAXIMUM RATING
Input Supply
Voltage Range
Shutdown Input
Voltage Range
Low Battery Output
Voltage Range
Output Current
Operating Temperature
Storage Temperature
Power Dissipation
(Tamb=25°C)
-0.3 to 20V
-0.3 to Vin
-0.3 to 20V
300mA
-40 to 85°C
-55 to 150°C
2W (Note 1)
ELECTRICAL CHARACTERISTICS
TEST CONDITIONS (Unless otherwise stated) Tamb =25°C,IL=10mA,Cs=10pF,Cout =1µF
Parameter
SYMBOL
CONDITIONS
MIN
Output voltage
Vo
Vin=6.0V
4.9
Vo
Output voltage
temperature coefficient ∆T
TYP
MAX UNITS
5.0
5.1
V
Vin=6.0V
(Note 2, Note 4)
100
250
ppm/°C
Line regulation
∆Vo
Vin=6.0 to 20V
20
70
mV
Load regulation
∆Vo
IL=10 to 300mA
Vin=6V
70
123
mV
Dropout voltage
(Note3)
Vin-Vo
IL=10mA
IL=100mA
IL=300mA
6
30
100
10
75
200
mV
Quiescent current
Iq
Vin=6.0V, IL=0
0.63
1
mA
Quiescent current
at shutdown
Iqs
Vin=6.0V, IL=0,
Vshdn=Vin
11
30
µA
Shutdown control input Iins
current
Vshdn=Vin=6.0V
2
10
µA
Shutdown control
threshold voltage
Vin=6.0V
low(on)
high(off)
0.4
V
100
nA
Vts
1.5
Output current in
shutdown mode
(Note4)
ILs
Vin=20V
Vo=Gnd
50
Output noise voltage
(Note4)
en
Vin=6.0V
f=10Hz
to100kHz,
IL=100mA
190
Low battery detect
voltage
Vin(bld)
Low battery flag
output voltage
Vbl
Ibl=100µA,
Vin<Vo+200mV
Low battery flag
leakage current
Ibl
Vbl=6V,
Vin>Vo+400mV
VO +
0.2V
4-81
µV RMS
VO +
0.4V
V
0.16
0.4
V
0.1
1
µA
ZLDO500
NOTES.
1. Maximum power dissipation of the device is calculated assuming the package is mounted on a
PCB measuring 2 inches square.
2 Output voltage temperature coefficient is calculated as:-
VO change x 1000000
VO x temperature change
3. Dropout voltage is defined as the input to output voltage differential at which the circuit ceases
to regulate. The value is measured when the output voltage has dropped by 100mV from Vout
measured at the nominal input Vin = Vout + 1V
4. Guaranteed by design.
FUNCTIONAL DESCRIPTION
impending battery failure, whilst a shutdown
function reduces quiescent current to a mere
11µA (typ). A precision bandgap reference
gives ± 2.5% output tolerance and good
temperature characteristics over the range
-40 to +85°C. AC performance is enhanced via
the use of a small external capacitor.
The ZLDO is a high performance, ultra low
dropout, low quiescent regulator. Available in
SM8 surface mount packaging, the device is
able to dissipate 2W(note 1) allowing
complete design flexibility with an input span
upto 20V and 300mA output current. The
device quiescent is 1mA (typ) at 300mA load
current. A low battery comparator signifies
PIN DEFINITIONS
Pin 1 LBF - Low Battery Flag. An open
collector NPN output which pulls low on failing
input supply.
Pin 2 SC - Shutdown Control. This high
impedance logic compatible input disables the
regulator when taken high. It includes a diode
wired to Vin and so will pass current if taken
more than 0.5V above Vin.
Pin 3 Vin - Voltage Input. The power supply to
the regulator. The permissible input voltage
range is -0.3 to 20V. An input capacitor is not
mandatory but will be useful in reducing the
coupling of noise from input to output and
minimising the effect of sudden changes in load
current on the input voltage.
Pin 4 N/C - Not Connected. Not internally
connected and so can be left open or wired to
any pin without affecting the performance of the
regulator.
Pin 5 Vout - Voltage Output. The output of the
regulator. An output capacitor of 1uF or greater
and having low ESR should be wired in close
proximity to the regulator to ensure stability for
all loads.
Pin 6 D/C - Do Not Connect. This pin is wired
to an internal circuit node of the regulator. No
external connection should be made to this pin.
Pin 7 Gnd - Ground. The ground connection
of the regulator against which the output
voltage is referenced.
Pin 8 Spg - Shaping. The shaping node for
the error amplifier of the regulator. A
capacitor of 10pF wired from this pin to the
output pin (pin 5) gives optimum stability.
Improved AC can be achieved by reducing
the value of this capacitor but stability may
be impaired for some load conditions.
4-82
ZLDO500
TYPICAL CHARACTERISTICS
C(out) =1µF
C(out)=1µF
45
1800
40
1600
1400
Ripple Rejection (dB)
Output Impedance (mΩ )
2000
10pF
4.7pF
2.2pF
1200
1000
800
600
400
35
10pF
4.7pF
2.2pF
30
25
20
15
10
200
5
0
100
1K
10K
100K
100
1K
Output Impedance vs. Frequency
5.04
720
V(in)=7V
V(in)=7V
Quiescent Current (µA)
700
5.02
Output Voltage (V)
100K
Ripple Rejection vs. Frequency
Io=10mA
5.03
10K
Frequency (Hz)
Frequency (Hz)
5.01
5.00
4.99
4.98
680
660
640
620
600
580
560
540
4.97
-40
-20
0
20
40
60
80
100
-40
-20
Temperature ( °C)
0
20
40
60
80
100
Temperature ( °C)
Output Voltage Temperature Coefficient
18
Quiescent Current vs. Temperature
5.28
V(in)=7V
V(in)=7V
L.B.F. Operation Voltage (V)
Shutdown Current (µA)
Io=10mA
16
14
12
10
8
6
-40
5.27
5.26
5.25
5.24
5.23
5.22
-20
0
20
40
60
80
100
-40
Temperature ( °C)
-20
0
20
40
60
80
Temperature ( °C)
Shutdown Current vs. Temperature
Low Battery Flag Operating Point
4-83
100
ZLDO500
TYPICAL CHARACTERISTICS
220
Output Voltage Deviation (V)
V(in)= 7V
Dropout Voltage (mV)
200
180
160
140
120
85 ° C
25 ° C
-40 ° C
100
80
60
40
20
Io= 100mA
V(in)= 12V
V(in)= 7V
1
Output Voltage Deviation
0
-1
0
0.1
1.0
10
100
0
1000
200
400
600
800
1000
Time (µs)
Load Current (mA)
Dropout Voltage vs. Load Current
Line Transient Response
SINGLE PULSE TEST
T amb = 25 ° C
DC
1s
0.1s
10ms
(A)
Io= 100mA
Io= 0mA
Load Current
Output Voltage Deviation (V)
1.0
V(in)= 7V
0.5
Output Voltage Deviation
0
DC
0.1
-0.5
0.01
0
200
400
600
800
1000
1
2
5
10
20
Input-Output Differential Voltage (V)
Time (µs)
Safe Operating Area
Load Transient Response
Operation in shaded area is not guaranteed
4-84
ZLDO500
APPLICATIONS
1). Operation From A Low Voltage
Battery Pack
Fig.1 shows the ZLDO500 regulator being
used to stabilise the output of a 6V battery
pack. The ultra low dropout voltage of only
100mV at full load (300mA) given by the
regulator allows the minimum number of
cells to be used in the pack and also
maximises the energy that can be removed
from the battery before the output of the
ZLDO500
LBF
Spg
SC
Gnd
Vin
D/C
C1
10pF
+5V
N/C Vout
6V
C3
100nF
C2
1uF
Output
0V
Figure 1
regulator starts to fail.
At a load current of 100mA the dropout
voltage falls to around 30mV. The endurance
of the battery pack is not only dependent on
dropout voltage. When operating, some low
dropout regulators can consume high
quiescent currents, sometimes approaching
as much as a tenth of their maximum load
current specification when approaching
Voltage
Feedback
dropout conditions. Despite its 300mA output
rating, when enabled the ZLDO500 consumes
typically only 630uA regulating normally and
3mA when the input falls too low for
regulation.
2). Post Converter Regulation
A common problem with multiple output
switch mode converters is that only one
output can be used in the feedback control
loop of the switching regulator. Thus only
one output is fully regulated. All other
outputs are prone to tracking errors that
occur if the load on any output change
significantly. By ensuring close coupling of all
transformer windings and minimising the
impedance of all outputs, these errors can be
reduced but never eliminated. A simple way
round this problem is to wind the switching
regulator transformer to give a slightly higher
voltage than required and regulate down
from this to the desired voltage with a linear
regulator. This is indicated in Figure 2. To
keep losses low and so maintain the
advantages of a switch mode supply, it is
important that the voltage drop across this
regulator is kept as low as possible, i.e. just
high enough to compensate for the poor
output impedance of the switching power
supply but no higher. The low dropout
D1
+ 12V Out
TR1
Switching
Regulator
C4
220uF
D2
ZLDO500
LBF Spg
SC Gnd
Vin D/C
C1
10pF
+ 5.0V Out
N/C Vout
C5
C2
1uF
220uF
Figure 2
0V Out
4-85
ZLDO500
APPLICATIONS
voltage of the ZLDO500 allows this circuit
technique to be implemented very effectively,
giving a highly stable and accurate low noise
supply.
be taken to a voltage higher than Vin if low
quiescent supply current is important. The
shutdown control is a high impedance input
and so if not required, should be wired to the
ground pin (pin 7).
3). Logic Controlled Power Supply
4). Over Temperature Shutdown
Figure 3 shows all that is necessary to allow
a microprocessor to control a power supply
based on the ZLDO500 The Shutdown Control
pin (pin 2), is a logic compatible input that
disables the regulator when a voltage in
The ZLDO500 regulator includes an over
temperature shutdown circuit that disables
the regulator if its chip temperature should
exceed 125°C for any reason. Although
+6.7V
to 20V
Vin Vout
IC2
ZLDO500
Gnd
IC1
ZSR500
LBF Spg
Microproc.
System
SC Gnd
Vin D/C
Supply Input
N/C Vout
C3
100nF
Figure 3
+5V
C2
1uF
0V
0V
excess of 1.5V is applied. The current required
to drive this input is less than 10µA. When the
regulator is shutdown in this way, the
quiescent current of the ZLDO500 falls to
around 11µA. This makes the regulator
suitable for a wide range of battery powered
applications where intermittent operation
occurs. The shutdown control pin should not
C1
10pF
intended to provide a limited guard against
excessive internal power dissipation, this
circuit will shut down the regulator if its
ambient rises above 125°C. Thus, the
regulator could be used to disable a circuit in
the event of the ambient temperature within
which the circuit is mounted becoming too
high. Any internal power dissipation caused
as a result of supplying load current, will
reduce the ambient temperature at which
shutdown occurs. Note that to achieve the
extremely low dropout voltage and high
current performance provided by the
4-86
ZLDO500
APPLICATIONS
ZLDO500 devices, the parts can be damaged
by sustained output shorts or excessive loads
when combined with high input supply
voltages. To ensure reliable operation, keep
loads within the SOA graph boundaries
Indicated in the typical characteristics.
5). Low Battery Flag
The ZLDO500 provides an output called Low
Battery Flag (LBF). Unlike many regulators
that only signal that they are falling out of
regulation, the LBF output of the ZLDO500
series indicates that the voltage drop across
the regulator has fallen to less than typically
300mV and so supply failure is imminent.
This improved warning gives both more time
for the system supplied to shutdown
gracefully and maintains regulation while
this happens. This could be a vital point if
measurements are under way and must be
ZLDO500
LBF Spg
SC
Gnd
Vin
D/C
C1
10pF
+ 5V
N/C Vout
6V
C3
100nF
C2
1uF
R1
100k
Microproc.
System
0V
Figure 4
4-87
Interrupt
Input
ZLDO500
CONNECTION DIAGRAM
SM8 Package Suffix – T8
Top View –
Pin 6 must be left floating
SEE PIN DEFINITIONS
ORDERING INFORMATION
Part Number
Package
Part Mark
ZLDO500T8
SM8
ZLDO500
4-88