SIPEX SPX5205M5-3.3

SPX5205
SPX5205
150 mA, Low-Noise LDO Voltage Regulator
(Preliminary Information)
FEATURES
APPLICATIONS
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Low Noise Output LDO
1% Initial Accuracy At 150mA
Very Low Quiescent Current
Low Dropout Voltage (210mV At 150mA)
Current & Thermal Limiting
Reverse-Battery Protection
Wide Range of Fix Output Voltages
1.8V, 2.5V, 2.8V, 3.0V, 3.3V, 4.0V, 4.5V, & 5.0V
Zero Off-Mode Current
Small 5-Pin SOT-23
Pin Compatible to MIC5205/MAX8877 (Fixed Option Only)
PDA
Battery Powered Systems
Cellular Phone
Cordless Telephones
Radio Control Systems
Portable/Palm Top/Notebook Computers
Portable Consumer Equipment
Portable Instrumentation
Bar Code Scanners
SMPS Post-Regulator
PRODUCT DESCRIPTION
The SPX5205 is an excellent choice for use in battery-powered applications, and where power conservation is desired. Such as:
cellular/ cordless telephones, radio control systems, and portable computers.
This device is a positive voltage regulator with very low dropout voltage and low output noise. It uses very little quiescent current of
750 µA at 100 mA output load. VOUT tolerance is less than 1% with a compensated temperature coefficient. Many fixed output
voltages, as listed below, or an adjustable version are available in a small 5-pin SOT-23 package.
Other key features include: Zero off-mode current, protection against reversed battery, thermal and current limiting.
PIN CONNECTIONS
MARKING INFORMATION
Voltage
1.8
2.5
2.8
3.0
3.3
Marking
R1XX
R2XX
R3XX
R5XX
R6XX
Voltage
4.0
4.5
5.0
ADJ
Marking
R7XX
R8XX
RBXX
RCXX
Top View
VOUT
BYP
5
4
2
ADJ/BYP
5
4
SPX5205
SPX5205
1
Top View
VOUT
3
VIN GND EN
Fixed Output Voltage
1
2
3
VIN GND EN
Adjustable Output Voltage
Rev. 10/24/00
SPX5205
ABSOLUTE MAXIMUM RATINGS
RECOMMENDED OPERATING CONDITIONS
Thermal Shutdown .................................... Internally Limited
Lead Temp. (Soldering, 5 Seconds) ............................ 260°C
Operating Junction Temperature Range ..... -40°C to +125°C
Input Supply Voltage........................................-20V to +20V
Enable Input Voltage........................................-20V to +20V
Input Voltage................................................. +2.5V to +16V
Operating Junction Temperature Range ..... -40°C to +125°C
Enable Input Voltage............................................. 0V to VIN
SOT-23-5 (θJA) ..................................................... See Note 1
ELECTRICAL CHARACTERISTICS
TJ = 25°C, VIN = VOUT + 1V, IL = 100µA, CL = 1µF, and VENABLE > 2.4V. Unless otherwise specified boldface applies over the
junction temperature range
Parameter
Test Conditions
Typ
Min
Max
Units
Output Voltage Tolerance (VOUT)
Output Voltage Temperature Coefficient
Line Regulation
Load Regulation
Dropout Voltage (See Note 2)
(VIN - VO)
Quiescent Current (IGND)
Ground Pin Current
(IGND)
Ripple Rejection (PSRR)
Current Limit (ILIMIT)
Output Noise (eNO)
Input Voltage Level
Logic Low (VIL)
Input Voltage Level
Logic High (VIL)
ENABLE Input Current
-1
-2
IL = 100 µA
IL = 500 µA
VIN = VOUT + 1V to 16V
VIN = VOUT + 1V to 16V
IL = 0.1mA to 150mA
IL = 0.1mA to 150mA
IL = 100 µA
57
0.03
30
140
IL = 100 mA
180
IL = 150 mA
210
VENABLE < 0.6V
VENABLE < 0.25V
IL = 100 µA
<1
IL = 50 mA
350
IL = 100 mA
750
IL = 150 mA
1300
VOUT = 0V
IL = 50mA, CL = 1µF
10Hz – 100Khz.)
0.1
0.2
0.2
0.5
50
70
190
230
250
300
275
350
1
5
125
150
600
800
1000
1500
1900
2500
0.1
IL = 50 mA
80
55
360
390
OFF
ON
VIL < 0.6V
VIH > 2.0V
+1
+2
%VNOM
ppm/°C
%/V
%
mV
µA
µA
500
dB
mA
µVRMS
0.6
V
2
20
µA
2.0
0.01
2
Note 1: The maximum allowable power dissipation is a function of maximum operating junction temperature, TJ (max), the junction to ambient thermal resistance, and
the ambient, θJA, and the ambient temperature TA. The maximum allowable power dissipation at any ambient temperature is given:
PD (max) = (TJ (max) - TA)/θJA, exceeding the maximum allowable power limit will result in excessive die temperature; thus, the regulator will go into thermal shutdown.
The θJA of the SPX5205 is 220oC/W mounted on a PC board.
Note 2: Not apply to 1.8V version.
Rev. 10/24/00
SPX5205
TYPICAL APPLICATION
5
1
VIN
VOUT
+
+
GND
2
3
EN
1.0uF
SPX5205
4
BYP
(Optn)
ENABLE may be tied directly to VIN
Rev. 10/24/00
SPX5205
Application Hints
In general, linear regulator stability decreases with higher
output currents. In most applications the SPX5205 is
operating at few milliamps. In these applications the output
capacitance can be further reduced. For example, when the
regulator is running at 10mA output current the output
capacitance value is half compared to the same regulator
that is running at 150mA.
The SPX5205 requires an output capacitor for device stability.
The value required varies greatly depending upon the
application circuit. The high frequency characteristics of
electrolytic capacitors depend greatly on the type and also on
the manufacturer. Sometimes bench testing is the only means
to determine the proper capacitor type and value. The high
quality 2.2µF aluminum electrolytic capacitor covers all
general application circuits; this stability can be obtained with
a tantalum electrolytic value of 1µF.
With the SPX5205 adjustable regulator, the minimum value
of output capacitance is a function of the output voltage.
The value decreases with higher output voltages, since the
closed loop gain is increased.
Typical Applications Circuits
The SPX5205 provides access to the internal reference. A 10µF capacitor on the BYP pin will provide a significant reduction in
output noise. This pin may be left unconnected if the output noise is not a major concern. The SPX5205 start-up speed is inversely
proportional to the size of this capacitor. Applications requiring a slow ramp-up of output voltage should consider larger values of
CBYP. If the rapid turn-ON is necessary, omit bypass capacitor.
Figure 1 shows SPX5205 standard application circuit. The EN pin is pulled high (>2.0V) to enable the regulator. To disable the
regulator, EN < 0.6V.
V IN
+
GND
EN
V OUT
5
1
+
2
3
SPX5205
4
BYP
(Optn)
Hi-ON
Lo-OFF
Fig. 1
Top View
The SPX5205 in figure 2 shows adjustable output voltage configuration. Two resistors set the output voltage. The formula for output
voltage is:
R1
VOUT = 1.235 x 1+ R2
Resistor values are not critical as the ADJ pin has high input impedance, for best results use resistors of 47kΩ or less. A capacitor
from ADJ to ground will provide improved noise performance.
1
V IN
5
VOUT
2
+
GND
EN
Hi-ON
Lo-OFF
3
SPX5205
4 ADJ
Byp
(Optn)
Top View
R1
+
R2
Fig. 2
Rev. 10/24/00
SPX5205
PACKAGE DRAWING
SOT-23-5L (M5)
D
B (5 PLACES)
H
E
e
e1
A
A2
A1
C
SYMBOL
L
MIN.
MAX
MIN.
MAX.
A
0.90
1.30
.035
.051
A1
0
0.10
0
.004
A2
INCHES
MILLIMETERS
0.80 REF
.0315 REF
B
0.30
0.50
.012
.019
C
0.10
0.35
.004
.0137
D
2.70
3.10
.106
.122
E
1.40
1.80
.055
.071
e
0.95 BSC.
1.70
2.10
.066
.082
H
2.50
3.00
.098
.118
MIN 0.2
1. REFER TO APPLICABLE
2. CONTROLLING DIMENTION : MILLIMETER
3. PACKAGE SURFACE FINISHING TO BE SMOOTH
FINISH.
.037 BSC.
e1
L
NOTE:
MIN .0078
Rev. 10/24/00
SPX5205
Ground Current Vs. Input Voltage
Ground Current Vs. Load Current
1.40
110
1.20
100
90
I Gnd (uA)
I Gnd (mA)
1.00
0.80
0.60
0.40
70
60
Vo = 3.3V
IL = 100uA
CL = 1uF
50
3.3V Device
Vin = 4.3V
CL=1uF
0.20
80
40
0.00
30
0
50
100
150
4
6
8
IL (mA)
10
12
14
16
14
16
Vin (V)
Ground Current Vs. Load Current
(in Dropout)
Output Voltage Vs. Input Voltage
3.340
2.00
3.335
3.3V Device
IL = 100uA
CL = 1uF
3.330
3.325
Vout (V)
I Gnd (mA)
1.50
1.00
3.320
3.315
3.310
3.305
0.50
3.3V Device
Vin = 4.3V
CL = 1uF
3.300
3.295
0.00
3.290
0
50
100
150
4
6
8
IL (mA)
10
12
Vin (V)
Dropout Voltage Vs. Load Current
Output Voltage Vs. Load Current
3.310
200
Vout (V)
Dropout (mV)
3.308
3.3V Device
Vin = 4.3V
CL = 1uF
150
100
Vin = 4.3V
Vo = 3.3V
CL = 1uF
50
3.306
3.304
3.302
3.300
0
0
50
100
IL ( mA)
150
0
50
100
150
IL ( mA)
Rev. 10/24/00
SPX5205
Ground Current Vs. Temperature
Ground Current Vs. Temperature
90.0
950
850
Vin = 4.3V
Vout = 3.3V
CL = 1uF
IL = 100uA
70.0
I Gnd (uA)
I Gnd (uA)
80.0
750
650
Vin = 4.3V
Vout = 3.3V
CL= 1uF
IL = 100mA
60.0
550
50.0
450
-40
-20
0
20
40
60
80
100
120
-40
-20
0
20
Temperature (Degree C)
Ground Current in Dropout Vs. Temperature
60
80
100
120
Output Voltage Vs Temperature
3.400
2.30
3.380
2.20
3.360
Vin = 4.3V
Vout = 3.3V
CL = 1uF
IL = 150mA
2.00
1.90
Vin = 4.3V
Vout = 3.3V
CL = 1uF
3.340
3.320
Vout
(V)
2.10
I Gnd (mA)
40
Temperature (Degree C)
1.80
3.300
3.280
1.70
3.260
1.60
3.240
1.50
3.220
1.40
3.200
-40
-20
0
20
40
60
80
100
120
-40
-20
0
20
40
60
80
100
120
Temperature (Degree C)
Temperature (Degree C)
Enable Voltage, On Threshold Vs. Input Voltage
1.60
VEN, On Threshold (V)
1.50
1.40
1.30
1.20
Vout = 3.3V
IL = 100uA
CL = 1uF
1.10
1.00
0.90
0.80
4
6
8
10
12
14
16
Vin (V)
Rev. 10/24/00
SPX5205
Rev. 10/24/00
SPX5205
ORDERING INFORMATION
Ordering No.
Output Voltage
Packages
SPX5205M5
SPX5205M5-1.8
SPX5205M5-2.5
SPX5205M5-2.8
SPX5205M5-3.0
SPX5205M5-3.3
SPX5205M5-4.0
SPX5205M5-4.5
SPX5205M5-5.0
Adj
1.5V
2.5V
2.8V
3.0V
3.3V
4.0V
4.5V
5.0V
5 Lead SOT-23
5 Lead SOT-23
5 Lead SOT-23
5 Lead SOT-23
5 Lead SOT-23
5 Lead SOT-23
5 Lead SOT-23
5 Lead SOT-23
5 Lead SOT-23
Corporation
SIGNAL PROCESSING EXCELLENCE
Sipex Corporation
Headquarters and Main Offices:
22 Linnell Circle
Billerica, MA 01821
TEL: (978) 667-8700
FAX: (978) 670-9001
e-mail: [email protected]
233 South Hillview Drive
Milpitas, CA 95035
TEL: (408) 935-7600
FAX: (408) 934-7500
Sipex Corporation reserves the right to make changes to any products described herein. Sipex does not assume any liability arising out of the application or use of any product or circuit described
hereing; neither does it convey any license under its patent rights nor the rights of others.
Rev. 10/24/00