ETC B29150S

Bay Linear
Inspire the Linear Power
1.5A High Current Low Dropout
B29150
Voltage Regulator Adjustable & Fix Output
Preliminary Information
Description
Features
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The Bay Linear B29150 is a 1.5A high accuracy, low dropout
voltage regulator with only 350mV(Typ.)@ 1.5A). The B29150 is
designed for low voltage a application that requires lower dropout
voltage and faster transient response. This device is an excellent
choice for use in powering low voltage microprocessor that require
a lower dropout, faster transient response to regulate from +2.5V to
3.8V supplies and as a post regulator for switching supplies
applications.
The B29150 offers full protection against over-current faults,
reversed input polarity, reversed load insertion, and positive and
negative transient voltage. On-Chip trimming adjusts the reference
voltage to 1%. Features such as Enable pin, Error Flag pin are also
included in the 5 pin packages. The B29150 is offer in a new LPDD
(Low Profile TO-263) package from 4.47 mm (DD) tickness down
to only 1.27 mm (LPDD) total tickness.
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Adjustable & Fix Output
1% output accuracy @2.5V, 3.3V, @ 5.0V
Output Current of 1.5A
Low Dropout Voltage of 350mV @ 1.5A
Extremely Tight Load & Line Regulation
Reverse-battery and “Load Dump” Protection
Zero Current Shutdown Mode (5-pin version)
Error Flag Signal Output-of-Regulation (5-pin
version)
Offer in TO-263, TO-220, & New Slim LPDD
Similar to industry Standard MIC29150
Applications
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The B29150 are offered in a 3 & 5-pin TO-220 & TO-263 package
compatible with other 3 terminal regulators. For a 3A low dropout
regulator refer to the B39300 data sheet.
Powering VGA & Sound Card
LCD Monitor
USB Power Supply
SMPS Post Regulator
High Efficiency ”Green” Computer System
Adjustable Power Supply
Ordering Information
Pin Connection
Devices
Package
Temp.
B29150T
B29151/2/3T
B29150S
B29151/2/3S
B29150J
B29151/2/3J
TO-220-3
TO-220-5
TO-263-3
TO-263-5
LPDD-3
LPDD-5
-40 °C to 125 °C
-40 °C to 125 °C
-40 °C to 125 °C
-40 °C to 125 °C
-40 °C to 125 °C
-40 °C to 125 °C
TO-220-5 Package
TO-263-3 Package
BAY
B29150
1
VIN
2
TO-220-3 Package
TO-263-5 Package
BAY
B29151/52/53
3
GND V OUT
Front View
1 2 3 4 5
Top View
B29151
1) ENABLE
2) INPUT
3) GND
4) OUTPUT
5) FLAG
B29152
1) ENABLE
2) INPUT
3) GND
4) OUTPUT
5) ADJUST
B29153
1) FLAG
2) INPUT
3) GND
BAY
B29150
BAY
B29151/52/53
4) OUTPUT
5) ADJUST
B29151
B29152
1) ENABLE
1) ENABLE
B29153
1) FLAG
2) INPUT
2) INPUT
2) INPUT
3) GND
3) GND
3) GND
4) OUTPUT
5) FLAG
4) OUTPUT
4) OUTPUT
5) ADJUST
5) ADJUST
1 2 3 4 5
VIN GND VOUT
Top View
Front View
Bay Linear, Inc
2478 Armstrong Street, Livermore, CA 94550 Tel: (925) 989-7144, Fax: (925) 940-9556
www.baylinear.com
B29150
ABSOLUTE MAXIMUM RATINGS
Lead Temp. (Soldering, 5 Seconds) ................................ 260°C
Storage Temperature Range .............................. -65° to +150°C
Operating Junction Temperature Range
B29150/51/52/53 Control Section ............. -45°C +125°C
B29150/51/52/53 Power Transistor ............-45°C +150°C
Input Voltage........................................................ 26V
Maximum Output Current ................................... 3.5A
Input Supply Voltage (Note1) (Survival)-20V to +60V
ELECTRICAL CHARACTERISTICS (NOTE 1) at IOUT = 10mA, Ta=25°C, unless otherwise specified.
PARAMETER
CONDITIONS
Typ
B29150/51/52/53
Min
Max
Units
2.5V Version
IOUT = 10mA
10mA ≤IOUT≤1.5A, 4.75V≤VIN ≤26V
2.5
2.5
2.475
2.450
2.525
2.550
V
IOUT = 10mA
10mA ≤IOUT≤1.5A, 4.75V≤VIN ≤26V
3.3
3.3
3.267
3.234
3.330
3.366
V
IOUT = 10mA
10mA ≤IOUT≤1.5A, 5.5V≤VIN ≤26V
5.0
5.0
4.95
4.90
5.05
5.10
V
IO = 10mA, (VOUT + 1V) ≤ VIN≤ 26V
VIN = VOUT + 5V, 10mA ≤ IOUT≤ IFULLLOAD
(Note 2, 6)
Output Voltage (Note 6)
Temperature Coef.
0.06
0.2
0.5
1
%
%
20
100
ppm/°C
IO = 100mA
80
200
mV
IO = 750mA
220
IO = 1.5A
350
600
Ground Current
IO = 750mA, VIN = VOUT, +1V
IO = 1.5A
8
25
20
IGNDDO Ground Pin Current at
Dropout
Current Limit
Output Noise Voltage
(10Hz to 100kHz)
IL = 100mA
Reference Voltage
VIN = 0.5V less than specified VOUT IOUT = 10mA
0.9
Output Voltage (Note 2)
3.3V Version2.
Output Voltage (Note 2)
5.0V Version
Output Voltage (Note 2)
All Voltage Options
Line Regulation
Load Regulation
∆V°
∆T
Dropout Voltage
Reference Voltage
Adjust Pin
Bias Current
Reference Voltage
Temperature
Coefficient
Adjust Pin Bias
Current Temperature
Coefficient
VOUT = 0V (Note 4)
1.7
CL = 10µF
400
CL = 33µF
mA
1.5
A
µV RMS
260
1.240
(Note 8)`
40
(Note 7)
mA
1.228
1.215
1.252
1.265
V
1.203
1.277
V
80
120
nA
20
ppm/°C
0.1
nA/°C
Flag Output (Error Comparator) B29152/53
Output Leakage
Current
Output Low
Voltage
Bay Linear, Inc
VOH = 26V
0.01
1.00
2.00
µA
Device set for 5V. VIN = 4.5V
IOL = 250µA
220
300
400
mV
2478 Armstrong Street, Livermore, CA 94550 Tel: (925) 989-7144, Fax: (925) 940-9556
www.baylinear.com
B29150
Upper Threshold
Voltage
Lower Threshold
Voltage
Hysteresis
Device set for 5V (Note 9)
60
Device set for 5V (Note 9)
75
Device set for 5V (Note 9)
15
40
25
mV
95
140
mV
mV
ENABLE Input B29152/53
Input Logic Voltage
Low (OFF)
High (ON)
V
0.8
2.4
VEN = 26V
Enable Pin
Input Current
100
600
750
2.5
5
VEN = 0.8V
(Note 10)
Regulator Output
Current in Shutdown
V
µA
µA
10
500
NOTES:
The Bold specifications apply to the full operating temperature range.
Note 1: Maximum positive supply voltage of 60V must be of limited duration (<100msec) and duty cycle.) The maximum continuous supply voltage is 16V.
Note 2: Full load current (IFL) is defined as 1.5A for the B29150/51/52/53.
Note 3: Dropout voltage is defined as the input-to output differential when the output voltage drops to 99% of its nominal value with VOUT + 1V applied to VIN.
Note 4: VIN = VOUT (NOMINAL) +1V. For example, use VIN= 4.3V for a 3.3V regulator. Employ pulse-testing procedures to minimize temperature rise.
Note 5: Ground pin current is the regulator quiescent current. The total current drawn from the source is the sum of the load current to the ground current.
Note 6: Output voltage temperature coefficient is defined as the worst case voltage changed divided by the total temperature range.
Note 7: Thermal regulation is defined as the change in the output voltage at a time T after a change in power dissipation is applied, excluding load or line regulation
effects. Specifications are for a 200mA load pulse as VIN = 20V (a 4W pulse) for T = 10ms.
Note 8: VREF ≤ VOUT ≤ (VIN - 1), 2.3V ≤ VIN≤ 16V, 10mA < IL ≤ IFL, TJ ≤ TJMAX
Note 9: Comparator threshold is expressed in terms of a voltage differential at the Adjust terminal below the nominal reference voltage measured 6V input. To express
these thresholds in terms of output voltage change, multiply the error amplifier gain = VOUT/VREF = (R1 + R2)/R2. For example, at a programmable output voltage of
5V, the Error output is guaranteed to go low when the output drops by 95mVx 5V/ 1.240V = 38mV. Threshold remains constant as a percent of VOUT as VOUT is varied,
with the dropout warning occurring at typically 5% below nominal, 7.7% guaranteed.
Note 10: VEN ≤ 0.8V and VIN≤ 16V, VOUT = 0.
BLOCK DIAGRAM
IN
OUT
O.V
ILIMIT
FLAG
+
-
1.180V
Reference
1.240V
28V
+
R1*
ADJ
EN
Thermal
Shutdown
R2*
GND
Bay Linear, Inc
2478 Armstrong Street, Livermore, CA 94550 Tel: (925) 989-7144, Fax: (925) 940-9556
www.baylinear.com
B29150
APPLICATION HINTS
Minimum Load Current
The Bay Linear B29150/51/52/53 incorporates protection against
over-current faults, reversed load insertion, over temperature
operation, and positive and negative transient voltage. However, the
use of an output capacitor is required in order to insure the stability
and the performances.
To ensure a proper behavior of the regulator at light load, a
minimum load of 5mA for B29150/51/52/53 is required.
Thermal Consideration
Although the B29150/51/52/53 offers limiting circuitry for overload
conditions, it is necessary not to exceed the maximum junction
temperature, and therefore to be careful about thermal resistance. The
heat flow will follow the lowest resistance path, which is the Junctionto-case thermal resistance. In order to insure the best thermal flow of
the component, a proper mounting is required. Note that the case of
the device is electrically connected to the output. The
case has to be electrically isolated, a thermally conductive spacer can
be used. However do not forget to consider its contribution to thermal
resistance.
Assuming:
VIN = 10V, VOUT = 5V, IOUT = 1.5A, TA = 90°C, θCASE= 1°C/W (no
external heat sink, no wind)
Power dissipation under these conditions
PD = (VIN – VOUT) * IOUT = 7.5W
Adjustable Regulator Design
B29152/53 are adjustable regulators and maybe programmed for
any value between 1.25V and 16V using two resistors. The relation
between the resistors is given by:
R1=R2 (VOUT/1.240 –1)
Resistors have a large value up to 1mΩ in order to reduce the
current consumption. This might be interesting in the case of
widely varying load currents.
Error Flag
B29152/53 features an error indicating either an over current fault
or a low input voltage. This flag pulls low when such a problem
occurs and may sink 10mA. It is inoperative during thermal
shutdown.
Enable Input
B29152/53 features enable input allowing turning ON & OFF the
device. EN has been designed to be compatible with TTL/CMOS
logic. When the regulator is ON, the current flowing through this
pin is approximately 20µA.
Junction Temperature
TJ = TA + PD * (θCASE+ θJC)
BAY
B29150
VIN
V OU
T
For the Control Section
TJ = 90°C + 7.5W*(1°C/W + 0.6°C/W) = 102°C
114°C < TJUNCTION MAX for the control section.
For the Power Section
TJ = 90°C + 7.5W*(1°C/W + 1.6°C/W) = 104.5°C
109.5°C < TJUNCTION MAX for the power transistor.
In both case reliable operation is insured by adequate junction
temperature.
Fig.1 Basic Fixed Output Regulator
Capacitor Requirements
The output capacitor is needed for stability and to minimize the output
noise. The required value of the capacitor varies with the load.
However, a minimum value of 10µF Aluminum will guarantee
stability over load. A tantalum capacitor is recommended for a fast
load transient response.
If the power source has high AC impedance, a 0.1µF capacitor
between input & ground is recommended. This capacitor should have
good characteristics up to 250 kHz.
1
2
VIN
BAY
B29152
3
VOUT
4
5
VOUT = VREF X [1 + (R 1/
R2)]
R1
R2
For best results, the total series resistance should be small
enough to pass the minimum regulator load current
Fig. 2 Adjustable Output Voltage Regulator
Bay Linear, Inc
2478 Armstrong Street, Livermore, CA 94550 Tel: (925) 989-7144, Fax: (925) 940-9556
www.baylinear.com
B29150
Advance Information- These data sheets contain descriptions of products that are in development. The specifications are based on the engineering calculations, computer simulations and/
or initial prototype evaluation.
Preliminary Information- These data sheets contain minimum and maximum specifications that are based on the initial device characterizations. These limits are subject to change upon the
completion of the full characterization over the specified temperature and supply voltage ranges.
The application circuit examples are only to explain the representative applications of the devices and are not intended to guarantee any circuit design or permit any
industrial property right to other rights to execute. Bay Linear takes no responsibility for any problems related to any industrial property right resulting from the use of
the contents shown in the data book. Typical parameters can and do vary in different applications. Customer’s technical experts must validate all operating parameters
including “ Typical” for each customer application.
LIFE SUPPORT AND NUCLEAR POLICY
Bay Linear products are not authorized for and should not be used within life support systems which are intended for surgical implants into the body
to support or sustain life, in aircraft, space equipment, submarine, or nuclear facility applications without the specific written consent of Bay Linear
President.
Bay Linear, Inc
2478 Armstrong Street, Livermore, CA 94550 Tel: (925) 989-7144, Fax: (925) 940-9556
www.baylinear.com