FCI CS-5201 1amp low dropout positive voltage regulator Datasheet

CS-5201 1Amp Low Dropout Positive Voltage Regulator
FRONT VIEW
DESCRIPTION
TAB IS
V OUT
00000The CS5201 series of positive adjustable
and fixed regulators are designed to provide 1A
with higher efficiency than currently available
devices. All internal circuitry is designed to
operate down to 700 mV input to output
differential and the dropout voltage is fully
specified as a function of load current.
Dropout voltage of the device is 100 mV at
light loads and rising to 700 mV at maximum
output current. A second low current input is
required to achieve this dropout. The CS5201
can also be used as single supply device
3
IN
2
OUT
1
ADJ/GND
SOT-223
FRONT VIEW
TAB IS
V OUT
3
IN
2
OUT
1
ADJ/GND
T0-263
3 LEAD TO-220
V IN
3
2
1
V OUT
ADJ/GND
FRONT VIEW
(3 pin version).
5 LEAD TO-220
V POWER
V CONTROL
5
4
3
2
1
FEATURES
Adjustable or Fixed Output.
Output Current of 1A.
Low Dropout, 700 mV at 1A Output Current.
0.04% Line Regulation.
0.1% Load Regulation.
100% Thermal Limit Burn-ln.
Fast Transient Response.
Remote Sense.
OUTPUT
ADJUST/GND
SENSE
FRONT VIEW
Typical application data
2.5V,1A regulator
5v
V CONTROL
VOUT
CS5201
VPOWER
V SENSE
Adjust
3.3v
1 F
5V
10 F
5V
0.1 F
5V
2.5v,1A
R 1
124
1%
R 2
124
1%
Load
150
5V
F
V OUT =V REF (1+R2/R1)+1 ADJ R2
Absolute Maximum Ratings
Symbol
PD
V IN
TJ
T STG
T LEAD
Parameter
Power Dissipation
Input Voltage
Vpower
Vcontrol
Maximum
Internally Limited
Units
W
V
7
13
Operating Junction Temperature Range
Control Section
Power Transistor
Storage Temperature
Lead Temperature(Soldering, 10 sec)
1
0 to 125
0 to 150
-65 to 150
300
CS-5201 1Amp Low Dropout Positive Voltage Regulator
Electrical Characteristics(Note 1)
Electrical Characteristics at ILOAD =0 mA and TJ =+25 unless otherwise specified.
Parameter
Device
Test Conditions
Min
Typ
Max
Reference Voltage CS5201 V CONTROL = 2.75V,VPOWER = 2V,I LOAD =10mA
Output Voltage
Line Regulation
Load Regulation
Minimum Load
Current (Note 2)
1.250
1.262
*
1.230
1.250
1.270
V CONTROL =4V, V POWER =2V
V CONTROL =3V, V POWER =3.3V, I LOAD =0mA to 1A
1.485
1.475
1.500
1.500
1.515
1.525
V
*
V CONTROL =5V, V POWER =3.3V
V CONTROL =4V, V POWER =3.3V, I LOAD =0mA to 1A
2.475
2.460
2.500
2.500
2.525
2.540
V
*
V CONTROL =5.35V, V POWER = 3.35V
V CONTROL =4.4V, V POWER = 3.7V, I LOAD =0mAto 1A
2.821
2.805
2.850
2.850
2.879
2.895
V
*
V CONTROL =5.5V, V POWER =3.5V
V CONTROL =4.5V, V POWER =3.8V, I LOAD =0mA to 1A
2.970
2.950
3.000
3.000
3.030
3.050
V
*
V CONTROL =5.8V, V POWER =3.8V
V CONTROL =4.8V, V POWER =4.1V, I LOAD =0mA to 1A
3.267
3.247
3.300
3.300
3.333
3.353
V
*
V CONTROL =6V, V POWER =4V
V CONTROL =5V, V POWER =4.3V, I LOAD =0mA to 1A
3.465
3.445
3.500
3.500
3.535
3.555
V
*
V CONTROL =7.5V, V POWER =5.5V
V CONTROL =6.5V, V POWER =5.8V, I LOAD =0mA to 1A
4.950
4.920
5.000
5.000
5.050
5.080
V
*
I LOAD =10mA,(1.5V+ V OUT ) V CONTROL
0.8V ( V POWER - V OUT ) 5.5V
*
0.04
0.20
%
0.08
0.40
%
1.7
5
mA
20
mA
A
CS5201
-1.5
CS5201
-2.5
CS5201
-2.85
CS5201
-3.0
CS5201
-3.3
CS5201
-3.5
CS5201
-5.0
All
CS5201
12V,
V CONTROL = V OUT +2.5V,V POWER = V OUT +0.8V,
I LOAD =10mA to 1A
V CONTROL =5V,V POWER =3.3V,V ADJ =0V
*
*
V CONTROL = V OUT +2.5V,V POWER = V OUT +0.8V,
I L OAD =10mA to 1A
*
Ground Pin Current CS5201-1.5/ V CONTROL = V OUT +2.5V,V POWER = V OUT +0.8V,
*
5
10
*
50
120
Control Pin Current All
(Note 3)
-2.5/-2.85
-3.0/-3.3/-3.5
-5.0
Adjust Pin Current
Current Limit
Ripple Rejection
V
1.238
V CONTROL = 2.7V to 12V,
V POWER = 3.3V to 5.5V,I LOAD =10mA to 1A
All
Units
I LOAD =10mA to 1A
V
=2.75V,V
=2.05V,
POWER
CS5201 I CONTROL
LOAD =10mA
( V IN - V OUT )=3V
All
V CONTROL = V POWER = V OUT +2.5V, V RIPPLE =1 V P-P ,
All
I LOAD =500mA
Thermal Regulation CS5201 T A =25 ,30ms pulse
Dropout Voltage
Note 4
V POWER = V OUT +0.8V, I LOAD =10mA
All
Control lnput
V POWER = V OUT +0.8V,I LOAD =1A
(V CONTROL - VOUT )
V CONTROL = V OUT +2.5V,I LOAD =1A
Power lnput
All
(V POWER - VOUT )
*
mA
1000
1500
mA
60
75
dB
0.003
%/W
*
*
*
1.00
1.15
1.15
1.30
V
*
0.55
0.70
V
The * denotes the specifications which apply over the full temperature range.
Note 1:Unless otherwise specified V out = V sense . For CS5201(adj) V adj = oV
Note 2:For the adjustable device the minimum load current is the minimum current roquired to maintain regulation. Normally
OOOO the current in the resistor divier used to set the output voltage is selected to meet the minimum load current requiement.
Note 3:The control pin current is the drive current required for the output transistor. This current will track output current
OOOO with a ratio of about 1:100.
Note 4:The dropout voltage for the CS5201 is caused by eithe r minimum contro l voltag e o r minimum powe r voltage.
OOOO The specifications represent the minimum input/output voltage required to maintain 1% regulation.
2
CS-5201 1Amp Low Dropout Positive Voltage Regulator
Pin Functions (5-Lead)
Sense (Pin 1): This pin is the positive side of the
Adjust (Pin 2): This pin is the negative side of the
VPOWER (Pin 5): This pin is the collector of the power
transistor. The output load current is supplied through this
pin. The voltage at this pin must be 0.7V greater than the
output voltage for the device to regulate.0000000000000000
reference voltage. Adding a small bypass capacitor from
the Adjust pin to ground improves the transient response.
For fixed voltage devices the Adjust pin is also brought
out to allow the user to add a bypass capacitor.00000000
VCONTROL (Pin 4): This pin is the supply pin for the control
circuitry. The current flow into this pin will be about 1% of
the output current. The voltage at this pin must be 1.3V
greater than the output voltage for the device to regulate.
GND (Pin 2): For fixed voltage device this is the bottom
Output (Pin 3): This is the power output of the device.000
reference voltage. With this pin it is possible to Kelvin
Sense the output voltage at the load.0000000000000000
of the resistor divider that sets the output voltage.000000
Block Diagram
V CONTROL
V POWER
+
-
SENCE
V OUT
FOR FIXED
VOLTAGE
DEVICE
ADJ1
For adjustable
voltage
device
GND
3
CS-5201 1Amp Low Dropout Positive Voltage Regulator
Application Information
5.0V
The CS5201 is designed to make use of multiple power
supplies, to reduce the dropout voltage. One of the
advantages of the two supply approach is maximizing the
efficiency. 0000000000000000000000000000000000000
The second supply is at least 1V greater than output
voltage and is providing the power for the control circuitry
and supplies the drive current to the NPN output
transistor. This allows the NPN output transistor to be
driven into saturation. For the control voltage the current
requirement is small equal to about 1% of the output
current. This drive current becomes part of the output
current. The maximum voltage on the Control pin is 12V.
The maximum voltage at the Power pin is 7V. By typing the
control and power inputs together the CS5201 can also
be operated as a single supply device. In single supply
operation the dropout will be determined by the minimum
control voltage.0000000000000000000000000000000000
Both the fixed and adjustable versions have remote sense
pins, permitting very accurate regulation of output
voltage. As a result, over an output current range of
100mA to 1A, the typical load regulation is less than 1mV.
For the fixed voltages the adjust pin is brought out
allowing the user to improve transient response by
bypassing the internal resistor divider. Optimum transient
response is provided using a capacitor in the range of
0.1 F to 1 F for bypassing the Adjust pin.000000000000
In addition to the enhancements mentioned, the
reference accuracy has been improved a factor of two
with a guaranteed initial tolerance of
1% at 25
and
1.6% accuracy over the full temperature and load current
range .00000000000000000000000000000000000000000
Typical applications for the CS5201 include 3.3V to 2.5V
conversion with a 5V control supply, 5V to 4.2V
conversion with a 12V control supply or 5V to 3.6V
conversion with a 12V control supply. The device is fully
protected against overcurrent and overtemperature
conditions. 0000000000000000000000000000000000000
CONTROL
3.3V
POWER
SENSE
Rp.
CS5201
OUTPUT
ADJ.
R1
R2
LOAD
R
Figure 1. Conventional Load Sensing
5.0V
3.3V
CONTROL
POWER
SENSE
CS5201
OUTPUT
ADJ.
R
R1
LOAD
R2
Rp.
Figure 2. Remote Load Sensing
Grounding and Output Sensing
( 0 I OUT )( R P )
The CS5201 allows true Kelvin sensing for both the high
and low side of the load. As a result the voltage regulation
at the load can be easily optimized. Voltage drops due to
parasitic resistances between the regulator and the load
can be placed inside the regulation loop. The advantages
of remote sensing are illustrated in figures 1 through 3.
Figure 1 shows the device connected as a conventional 3
terminal regulator with the Sense lead connected directly
to the connections between the device and the load.
Trace A of figure 3 illustrates the effect of Rp.1000000000
Figure 2 shows the device connected to take advantage
of the remote sense feature. The Sense pin and the top
of the resistor divider are connected to the top of the
load; the bottom of the resistor divider is connected to
the bottom of the load. The effect on output regulation
can be seen in trace B of figure 3.0000000000000000000
V OUT
FIGURE 1
A
B
V OUT
FIGURE 2
I OUT
TIME
Figure 3. Remote Sensing Improves Load Regulation
Stability
It is important to note that the voltage drops due to Rp,
are not eliminated; they will add to the dropout voltage of
the regulator regardless. The CS5201 can control the
voltage at the load as long as the input-output voltage is
greater than the total of the dropout voltage of the device
plus the voltage drop across Rp,.0000000000000000000
The circuit design used in the CS5201 series requires the
use of an output capacitor as part of the device frequency
compensation. The addition of 150 F aluminum
electrolytic or a 22 F solid tantalum on the output will
ensure stability for all operating conditions.00000000000
4
CS-5201 1Amp Low Dropout Positive Voltage Regulator
Output Voltage
In normal operations it is difficult to get those values of
surge currents even with the use of large output
capacitances. Only with high value output capacitors,
such as 1000 F to 5000 F and the VPOWER pin is
instantaneously shorted to ground, damage can occour.
A diode from output to input is recommended (Figure 5).
The CS5201(adjustable version) develops a 1.25V
reference voltage between the Sense pin and the Adjust
pin (Figure 4). Placing a resistor between these two
terminals causes a constant current to flow though R1
and down thouth R2 to set the output voltage. In general
R1 is chosen so that this current is the specified minimum
load current of 5 mA. The current out of the Adjust pin is
small, typically 50 A and it adds to the current from R1.
For best regulation the top of the resistor divider should
be connected directly to the Sense pin.00000000000000
V CONTROL
+
V POWER
D1
D2
CONTROL
V OUT
OUTPUT
CS5201 SENSE
POWER
+
ADJ.
V CONTROL
+
V REF
R1
+
V POWER
CONTROL
V OUT
OUTPUT
CS5201 SENSE
POWER
+
ADJ.
+
V REF
R2
R1
Figure 5. Optional Clamp Diodes Protect Against Input
0000000 Crowbar Circuits
I ADJ
V OUT = V REF (1+R2/R1)+ I ADJ R2
R2
If CS5201 is connected as a single supply device with the
control and power input pins shorted together the internal
diode between the output and the power input pin will
protect the control input pin.00000000000000000000000
Figure 4. Setting Output Voltage
Thermal Considerations
Protection Diodes
The CS5201 series have internal power and thermal
limiting circuitry designed to protect the device under
overload conditions.
However maximum junction
temperature ratings should not be exceeded under
continuous normal load conditions. Careful consideration
must be given to all sources of thermal resistance from
junction to ambient, including junction-to-case, case-toheat sink interface and heat sink resistance itself.000000
Junction temperature of the Control section can run up to
125 . Junction temperature of the Power section can
run up to 150 .00000000000000000000000000000000
In normal operation CS5201 family does not need any
protection diodes between the adjustment pin and the
output and from the output to the input to prevent die
overstress. Internal resistors are limiting the internal
current paths on the ADJ1pin. Therefore even with bypass
capacitors on the adjust pin no protection diode is
needed to ensure device safety under short-circuit
conditions. The Adjust pin can be driver on a transient
basis 7V with respect to the output without any device
degradation. 00000000000000000000000000000000000
A protection diode between the Output pin and VPOWER
pin is not usually needed. Microsecond surge currents of
50A to 100A can be handled by the internal diode
between the Output pin and VPOWER pin of the device.0000
5
CS-5201 1Amp Low Dropout Positive Voltage Regulator
ORDER INFORMATION
Device
Output Voltage
Package
CS5201ST
CS5201T
CS5201T1
CS5201DP
Adj 1
Adj 1
Adj 1
Adj 1
SOT-223
TO-220
TO-220-5
TO-263
CS5201ST-1.5
CS5201T-1.5
CS5201T1-1.5
CS5201DP-1.5
1.5V
1.5V
1.5V
1.5V
SOT-223
TO-220
TO-220-5
TO-263
CS5201ST-2.5
CS5201T-2.5
CS5201T1-2.5
CS5201DP-2.5
2.5V
2.5V
2.5V
2.5V
SOT-223
TO-220
TO-220-5
TO-263
2.85V
2.85V
2.85V
2.85V
SOT-223
TO-220
TO-220-5
TO-263
3V
3V
3V
3V
SOT-223
TO-220
TO-220-5
TO-263
CS5201ST-3.3
CS5201T-3.3
CS5201T1-3.3
CS5201DP-3.3
3.3V
3.3V
3.3V
3.3V
SOT-223
TO-220
TO-220-5
TO-263
CS5201ST-3.5
CS5201T-3.5
CS5201T1-3.5
CS5201DP-3.5
3.5V
3.5V
3.5V
3.5V
SOT-223
TO-220
TO-220-5
TO-263
5V
5V
5V
5V
SOT-223
TO-220
TO-220-5
TO-263
CS5201ST-2.85
CS5201T-2.85
CS5201T1-2.85
CS5201DP-2.85
CS5201ST-3
CS5201T-3
CS5201T1-3
CS5201DP-3
CS5201ST-5
CS5201T-5
CS5201T1-5
CS5201DP-5
6