B4251 [ETC]
250mA Low Dropout Voltage Regulators; 250毫安低压差稳压器
| 型号: | B4251 |
| 厂家: | 
ETC |
| 描述: | 250mA Low Dropout Voltage Regulators |
| 文件: | 总5页 (文件大小:174K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Bay Linear
Inspire the Linear Power
250mA Low Dropout Voltage Regulators
B4251
ON/OFF & BYPASS
Description
Features
The B4251 series are a group of positive output voltage,
five-pin regulators, which provide a high current even
when the input/output voltage differential is small. Low
power consumption and high accuracy is achieved
though CMOS and programmable fuse technologies.
Output voltage: 2.0V to 6.0V in 0.1V increments.
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•
•
•
•
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Maximum Output Current: 250 mA.
Highly Accurate Output Voltage +/- 1.4%
Only 19µA Power Consumption MAX
Shutdown Supply Current 1µA
Ground Current of Less than 5µA
Very Low Dropout
0.12V at 100mA
The B4251 consists of
a high-precision voltage
0.23V at 250mA
reference, an error correction circuit, and a current
limited output driver. Key features include a Shutdown
Pin that reduces supply current to 0.5µA max and a
470pF Bypass input to ground reduces noise present on
the internal reference, which in turn significantly reduce
output noise. If output noise is not concern, this input
maybe left unconnected. Larger capacitor values cap be
used, but results in longer time period to rated output
voltage when power initially applied.
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•
•
•
Shutdown Mode for Power Savings
With ON/OFF & BYPASS Features
Offered in SOT-89 & SOT-25 Packages
PIN-to-PIN S-818
Applications
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•
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Battery Powered Equipment
Notebook PC, Palmtops, PDA
Portable Cameras and Video Recorders
Reference Voltage Sources
The ON/OFF pin enables the output to be turned off,
resulting in reduced power consumption. Provided in
SOT-25 (150mW) packages minimizes the usage of
board real state.
Cellular / GSM / PCS Phones
Pin Connection
Ordering Information
Package
SOT-25
SOT-89
Part No.
B4251CK5-X.X
B4251CR-X.X
SOT-89 (R)
T-)
X.X = Fixed Output Voltages from 2.0V to 6.0V
Vout
Vss
Vout
Bypass
4
5
5
4
ON/OFF (Enable) Function
1
Part No
ON/Off
High
Low
VOUT
ON
OFF
2
3
1
2
3
B4251
ON/OFF
Vin
NC Vin On/Off
GND
Top View
Top View
Bay Linear, Inc 2478 Armstrong Street, Livermore, CA 94550 Tel: (925) 606-5950, Fax: (925) 940-9556
www.baylinear.com
B4251
Absolute Maximum Ratings
Parameter
Symbol
VIN
Ratings
12
500
Units
V
mA
V
V
Input Voltage
Output Current
IOUT
Output Voltage
VOUT
On/Off
VSS -0.3 to VIN 0.3
VSS -0.3 to VIN+ 0.3
150
On/Off Voltage
Continual Total Power Dissipation
SOT-25
SOT-89
Pd
mW
300
Operating Ambient Temperature
Storage Temperature
TOPR
TSTG
-30 to 80
°C
°C
-40 to 125
Electrical Characteristics (Ta = 25°C, VIN = VOUT + 0.5V; unless otherwise noted)
Parameter
Conditions
MIN
-1.4%
-2%
TYP
MAX UNIT
IO = 1mA
IO = 0 to 150mA
IO= 100mA,
-
+1.4%
Output Voltage Accuracy
V
-
+2%
Line Regulation
∆VOUT/∆VIN-VOUT
0.2
0.3
%/V
%/mV
mA
(VOUT + 0.1V)<VIN<6V
0.01
Load Regulation
0.04
VIN 6V, 0mA < IO < 120mA COUT = 1µF
Maximum Output Current
Current Limit
Shutdown Supply Current
Shutdown Input Bias Current
Shutdown Exit Delay
Shutdown Input Threshold Low
Shutdown Input Threshold High
Ground Pin Current
250
160
500
0.01
0.01
30
1
100
150
TA=25°C
VSHDN=VIN, TA=25°C
CBP=0µF COUT=1µF, IO = 1mA
Vin=2.5 to 5.5V
µA
nA
µsec
V
0.4
Vin=2.5 to 5.5V
2
V
2
5
250
280
IOUT = 0mA……150mA
IO = 150mA
µA
160
200
155
Dropout Voltage
mV
IO = 250 mA
Thermal Shutdown Temperature
°C
Marking Format
SOT-25
FXWW
F = B4251
Variables
X = Voltage Codes
WW = Work Week Code
B = 2.0
C = 2.5
D = 2.8
F = 3.3
G = 3.5
H = 5.0
SOT-25 = 01 to 99
E = 3.0
Bay Linear, Inc 2478 Armstrong Street, Livermore, CA 94550 Tel: (925) 606-5950, Fax: (925) 940-9556
www.baylinear.com
B4251
Power Dissipation
PRODUCT DESCRIPTION
The amount of power the regulator dissipates is
primarily a function of input and output voltage, and
output current. The following equation is used to
calculate worst case power dissipation:
The B4251 is precision fixed output voltage regulator.
Unlike bipolar regulators, the B4251 supply current
does not increase with load current. In addition, Vout
remains stable and within regulator at very low load
currents (an important consideration in RTC and
CMOS RAM battery back-up application).
PD=(VINMAX-VOUTMIN)ILOADMAX
Where:
PD= worst case actual power dissipation
VINMAX= Maximum voltage on VIN
VOUTMIN=Minimum regulator output voltage
Figure 1 shows a typical application circuit. The
regulator is enabled any time the shutdown input is at
or above VIH. And shutdown (disabled) when SHDN is
at or below VIL. SHDN maybe controlled by a CMOS
logic gate, or I/O port of a micro controller. If the
SHDN input is not. Required, it should be connected
directly to the supply. While in shutdown, supply
current decreases to 0.05µA (typical) and Vout falls to
zero volts.
I
LOADMAX= maximum output (LOAD) Current
The maximum allowable power dissipation is function
of the maximum ambient temperature (TAMAX). The
maximum allowable die temperature (125°C) and the
thermal resistance from junction-to-air (θJA). The 5-
pin SOT-23A package has a θJA of approximately
220°C/Watt when mounted on a single layer FR4
dielectric copper clad PC board.
Bypass Input
A 470pF capacitor connected from the bypass input to
ground reduces noise present on the internal reference,
which in turn significantly reduces output noise. If
output noise is not a concern, this input maybe left
unconnected. Larger capacitor values maybe used, but
it results in a longer time period to rated output
voltage power is initially applied.
P
DMAX=(TJMAX-TAMAX)/ θJA
Where all terms are previously defined
This can be caused in conjunction with other equation
to ensure regulator thermal operation is within limit.
For example:
Output Capacitor
A 1µF (min) capacitor from Vout to ground is required.
Then output capacitor should have an effective series
resistance of 5Ω or less. A 1µA capacitor should be
connected from Vin to GND if there is more than 10
inches of wire between the regulator and the AC filter
capacitor, or if a battery is used as the power source.
Aluminum electrolytic or tantalum capacitor types can
be used. (since many aluminum electrolytic capacitors
freeze at approximately- 30°C, solid tantalums are
recommended for applications operating below –25
°C.) When operating from sources other than
batteries, supply-noise rejection and transient response
can be improved by increasing the value of the input
and output capacitors and employing passive filtering
techniques.
Given:
V
V
INMAX=3.0V+10%
OUTMIN=2.7V-2.5%
I
LOADMAX=40 mA
TJMAX=125°C
TAMAX=55°C
Find:
1. Actual power dissipation
2. Maximum allowable dissipation
Actual power dissipation:
PD=(VINMAX-VOUTMIN)ILOADMAX
=[(3.0 x 1.1)-(2.7 x 0.975)]40 x 10-3
=26.7mW
Thermal Considerations
Thermal Shutdown
Maximum allowable power dissipation:
Integrated thermal protection circuitry shuts the
regulator off when die temperature exceeds 160°C.
The regulator remaining off until the die temperature
drops to approximately 150 °C.
P
DMAX=(TJMAX-TAMAX
=(125-55)/220
=318Mw
)
These equations can be used to calculate maximum
current and/or input voltage limits.
Bay Linear, Inc 2478 Armstrong Street, Livermore, CA 94550 Tel: (925) 606-5950, Fax: (925) 940-9556
www.baylinear.com
B4251
SOT-25 Packaging Outline
D
B (5 PLACES)
H
E
e
e1
A
A2
C
A1
L
INCHES
MIN. MAX.
MILLIMETERS
MIN.
0.90
0
MAX
A
A1
1.30
0.10
.035
0
.051
.004
NOTE:
1. REFER TO APPLICABLE
2. CONTROLLING DIMENTION : MILLIMETER
A2
B
0.80 REF
.0315 REF
3. PACKAGE SURFACE FINISHING TO BE SMOOTH
0.50
0.35
3.10
1.80
.012
.004
.106
.055
.019
.0137
.122
0.30
0.10
2.70
1.40
FINISH.
C
D
E
.071
e
.037 BSC.
0.95 BSC.
e1
H
L
1.70
2.50
2.10
3.00
.066
.098
.082
.118
MIN 0.2
MIN .0078
Bay Linear, Inc 2478 Armstrong Street, Livermore, CA 94550 Tel: (925) 606-5950, Fax: (925) 940-9556
www.baylinear.com
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.
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the specific written consent of Bay Linear President.
Bay Linear, Inc 2478 Armstrong Street, Livermore, CA 94550 Tel: (925) 606-5950, Fax: (925) 940-9556
www.baylinear.com
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