ETC B3431AK3

Bay Linear
Inspire the Linear Power
B3431
Adjustable Shunt Regulator
Description
Features
The Bay Linear B3431 is a three terminal adjustable shunt
regulator with thermal stability over
Temperature range. Using two external resistors allows the
output voltage to be adjusted from 2.5V to 36V. With a sharp
turn on characteristics the B3431 a superior replacement for
zener diode applications.
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Wide Operating Range …1mA to100mA
Tight Band Gap Tolerance ….….…0.5%
Low Temp. Coefficient…...…...30 ppm/oC
Wide temp range of –40 to +105oC
Available in SOT-23 package
.
The B3431 shunt regulator has a tolerance of 0.5% which has
proven to be sufficient to overcome all of the other errors in
the system to virtually eliminate the need for trimming in the
power supply manufacturers assembly line and contribute a
significant cost savings.
Applications
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Package Information
Ordering & Marking Information
SOT-23-3 (K3) B3431
SOT-23-3 (K3) LM3431
ANODE
ANODE
3
3
1
Switching Power Supplies
Adjustable Power Supplies
Linear Regulators
Battery Powered Equipment
Monitors, TV, VCR
Instrumentation
1
2
Package
SOT-23
Tolerance
0.5%
B3431AK3
1%
B3431BK3
2%
B3431CK3
2
REF CATHODE
CATHODE REF
Top View
Top View
CATHODE (K)
REFERENCE
(R)
+
2.5V
ANODE (A)
Bay Linear, Inc 2478Armstrong St., Livermore CA USA 9550
Tel: (925) 606-5950, Fax: (925) 940-9556
www.baylinear.com
B3431
Absolute Max Ratings
Parameter
Cathode Voltage
Continuous Cathode Current
Reference Input Current
Power Dissipation at TA - 25°C
S0-8
TO-92
SOT-23-3
Thermal Resistance
SOT-23-3
S0-8
TO-92
Operating Junction Temperature Range
Storage Temperature Range
Lead Temperature (Soldering) 10 seconds
ESD Rating (Human Body Model)
Symbol
Vz
Iz
IREF
Maximum
37
150
10
Units
V
mA
mA
PD
750
775
200
mW
OJA
575
175
160
-40 to +150
-65 to +150
300
2
°C/W
TJ
TSTG
TLEAD
TESD
°C
°C
°C
kV
Recommended Operating Conditions
Min
VREF
0.1
Cathode Voltage, Vz
Cathode Current, Iz
Max
36
150
Symbol
V
mA
Electrical Characteristics
Unless specified: T٨ = 25°C. Values in bold apply over full operating ambient temperature.
B3431 0.5%
Parameter
Reference Voltage
VREF Temp Deviation
Ratio of Change in
VREF To Change in VZ
Reference Input
Current
IREF Temperature
Deviation
Off-State Cathode
Current
Dynamic Output
Impedance
Minimum Operating
Current
Symbol
VREF
VDEV
Δ VREF
ΔVZ
IREF
IREF(DEV)
Condition
VZ = VREF1 IZ = 10mA(1)
VZ = VREF1 IZ = 10mA(1)
IZ = 10mA,ΔVZ = 10V to VRef
IZ = 10mA,ΔVZ = 36V to 10V
R1 = 10kΩ, R2 = ∞,
IZ = 10mA(2)
R1 = 10kΩ, R2 = ∞,
IZ = 10mA(2)
Min
2.490
-2.7
-2.0
Typ
2.50
4
-1.0
-0.4
Max
2.515
17
0.7
4
µA
0.4
1.2
µA
0.3
Units
V
mV
mV/V
IZ (OFF)
VREF = 0V, VZ =36V(3)
0.1
1
µA
rz
F <1kHz, VZ = VREF
IZ = 1mA to 100mA(1)
0.20
0.50
Ω
IZ(MIN)
VZ = VREF(1)
0.4
1
mA
Bay Linear, Inc 2478Armstrong St., Livermore CA USA 9550
Tel: (925) 606-5950, Fax: (925) 940-9556
www.baylinear.com
B3431
B3431 1%
Parameter
Reference Voltage
VREF Temp Deviation
Ratio of Change in
VREF To Change in VZ
Reference Input
Current
IREF Temperature
Deviation
Off-State Cathode
Current
Dynamic Output
Impedance
Minimum Operating
Current
Symbol
VREF
VDEV
Δ VREF
ΔVZ
IREF
IREF(DEV)
Condition
VZ = VREF1 IZ = 10mA(1)
VZ = VREF1 IZ = 10mA(1)
IZ = 10mA,ΔVZ = 10V to VRef
IZ = 10mA,ΔVZ = 36V to 10V
Min
2.474
-2.7
-2.0
R1 = 10kΩ, R2 = ∞,
IZ = 10mA(2)
R1 = 10kΩ, R2 = ∞,
IZ = 10mA(2)
Typ
2.50
4
-1.0
-0.4
Max
2.526
17
0.7
4
µA
0.4
1.2
µA
0.3
Units
V
mV
mV/V
IZ (OFF)
VREF = 0V, VZ =36V(3)
0.1
1
µA
rz
F <1kHz, VZ = VREF
IZ = 1mA to 100mA(1)
0.20
0.50
Ω
IZ(MIN)
VZ = VREF(1)
0.4
1
mA
B3431 2%
Parameter
Reference Voltage
VREF Temp Deviation
Ratio of Change in
VREF To Change in VZ
Reference Input
Current
IREF Temperature
Deviation
Off-State Cathode
Current
Dynamic Output
Impedance
Minimum Operating
Current
Symbol
VREF
VDEV
Δ VREF
ΔVZ
IREF
IREF(DEV)
Condition
VZ = VREF1 IZ = 10mA(1)
VZ = VREF1 IZ = 10mA(1)
IZ = 10mA,ΔVZ = 10V to VRef
IZ = 10mA,ΔVZ = 36V to 10V
R1 = 10kΩ, R2 = ∞,
IZ = 10mA(2)
R1 = 10kΩ, R2 = ∞,
IZ = 10mA(2)
Min
2.445
-2.7
-2.0
Typ
2.495
4
-1.0
-0.4
Max
2.545
17
0.7
4
µA
0.4
1.2
µA
0.3
Units
V
mV
mV/V
IZ (OFF)
VREF = 0V, VZ =36V(3)
0.1
1
µA
rz
F <1kHz, VZ = VREF
IZ = 1mA to 100mA(1)
0.20
0.50
Ω
IZ(MIN)
VZ = VREF(1)
0.4
1
mA
Bay Linear, Inc 2478Armstrong St., Livermore CA USA 9550
Tel: (925) 606-5950, Fax: (925) 940-9556
www.baylinear.com
B3431
mV
%
0
∆VREF
∆Τ
-10
5000
TC in %/°C =
0.5
-20
∆VREF (mV)
TC in mV/°C =
-55
-25
0
25
50
75
∆TA
TC in ppm/°C =
100 125
∆VREF
VREF at 25°C
)
x 100
∆TA
∆VREF
VREF at 25°C
)
0
)
0
ppm
Calculating Average Temperature Coefficient (TC)
)
x 106
∆TA
Temperature (°C)
0.06 mV/°C
0.002 %/°C
24 ppm/°C
Test Circuit
VIN
VKA = VREF
IREF
IK
VIN
VKA
R1
VIN
IK
VKA
IK (OFF)
(VREF)
R2
Figure 1a. Test Circuit 1
Figure 1b. Test Circuit 2
Bay Linear, Inc 2478Armstrong St., Livermore CA USA 9550
Figure 1c. Test Circuit 3
Tel: (925) 606-5950, Fax: (925) 940-9556
www.baylinear.com
B3431
TYPICAL PERFORMANCE CURVES
High Current Operating Characteristics
Low Current Operating Characteristics
900
150
VKA = VREF
Temperature Range: - 0 to 105 °C
800
700
100
600
500
400
105 °C
300
25 °C
200
75
IK - Cathode Current (mA)
IK - Cathode Current (µ
µA)
VKA = V REF
Temperature Range: - 0 to 105 °C
125
50
25
0
-25
-0°C
100
-50
0
-75
-100
-100
-200
-1.0
0
1.0
2.0
-2
3.0
0
1
2
VKA - Cathode Voltage (V)
Figure 2
Figure 3
Off State Leakage
3
Reference Voltage vs. Ambient Temperature
100
2.53
V KA = 18V
V REF = 0V
V KA = V REF
IK = 10 mA
2.52
VREF - Reference Voltage (V)
IZ off - Off State Cathode Current (nA)
-1
VKA - Cathode Voltage (V)
10
1
0.1
2.51
2.50
V REF = 2.500 V at 25 °C
2.49
2.48
2.47
2.46
0.01
-60
-30
0
30
60
90
120
TA - Ambient Temperature ( °C)
Figure 4
Bay Linear, Inc 2478Armstrong St., Livermore CA USA 9550
2.45
-60
-30
0
30
60
90
120
TA - Ambient Temperature ( °C)
Figure 5
Tel: (925) 606-5950, Fax: (925) 940-9556
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B3431
TYPICAL PERFORMANCE CURVES
Reference Input Current
2.5
Reference Voltage Line Regulation
0
R1 = 10 k Ω
R2 = ∞
IK = 10 mA
VREF - Change in Reference Voltage (mV)
IREF - Reference Input Currentµ(A)
3.0
2.0
1.5
1.0
0.5
-10
0 °C
-20
25 °C
75 °C
-30
105 °C
-40
-50
0
-60
-30
0
30
60
90
120
0
3
6
9
12
15
TA - Ambient Temperature ( °C)
VKA - Cathode Voltage (V)
Figure 6
Figure 7
18
Low Frequency Dynamic Output Impedance
Noise Voltage
0.150
70
VKA = VREF
IKA = 1 to 100 mA
f < 1 kHz
60
ZKA - Dynamic Impedance (Ω )
0.125
Noise Voltage nV/√Hz
50
40
30
20
0.100
0.075
0.050
0.025
10
V KA = V REF
IK = 10 mA
TA = 25°C
0.0
0
-60
10
100
1k
10 k
-30
0
30
60
90
120
100 k
f - Frequency (Hz)
Figure 8
Bay Linear, Inc 2478Armstrong St., Livermore CA USA 9550
TA - Free Air Temperature
Figure 9
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B3431
TYPICAL PERFORMANCE CURVES
Dynamic Output Impedance
100
ZKA - Dynamic Impedance
TA = 25 °C
IK = 1 to 100 mA
10
1.0
0.1
0.01
1k
10 k
100 k
1M
10 M
f - Frequency (Hz)
Figure 10
Small Signal Voltage Gain vs. Frequency
70
Temperature Range: -0 to 105 °C
AV - Small Signal Voltage Gain (dB)
60
IK = 10 mA
50
OUT
40
15 k
IK
230 Ω
9 µF
30
8.25 k
20
GND
10
0
1k
10 k
100 k
f - Frequency (Hz)
1M
10 M
Figure 11
Bay Linear, Inc 2478Armstrong St., Livermore CA USA 9550
Tel: (925) 606-5950, Fax: (925) 940-9556
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B3431
TYPICAL PERFORMANCE CURVES
Pulse Response
6
INPUT
Input and Output Voltages (V)
5
INPUT
MONITOR
220 Ω
OUT
4
3
OUTPUT
50 Ω
fP = 100 kHz
2
1
GND
0
-1
0
1
2
3
4
5
6
7
8
9
10
11
12
µs)
t - Time (µ
Figure 12
Stability Boundary Conditions
100
A:
B:
C:
D:
90
V KA = V REF
V KA = 5V at I K = 10 mA
V KA = 10V at I K = 10 mA
V KA = 15V at I K = 10 mA
80
IK - Cathode Current (mA)
70
C
150 Ω
60
IK
50
40
STABILITY
REGION
CL
30
A
20
TA = 25 °C
10
10 k
B
D
0
10 0
10 1
10 2
10 3
10 4
10 5
10 6
10 7
CL - Load Capacitance (pF)
Figure 13
Bay Linear, Inc 2478Armstrong St., Livermore CA USA 9550
Tel: (925) 606-5950, Fax: (925) 940-9556
www.baylinear.com
B3431
Packaging Information
SOT-23
0.015 - 0.018
(0.381 - 0.457)
0.047 - 0.055 0.083 - 0.098
(1.194 - 1.397) (2.108 - 2.489)
0.035 - 0.040
(0.889 - 1.016)
0.020 - 0.024
(0.508 - 0.610)
0.070 - 0.080
(1.778 - 2.032)
0.110 - 0.120
(2.794 - 3.048)
0.001 - 0.004
(0.025 - 0.102)
0.003 - 0.005
(0.076 - 0.127)
0.030 - 0.041
(0.762 - 1.041)
0.018 - 0.024
(0.457 - 0.610)
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 2478Armstrong St., Livermore CA USA 9550
Tel: (925) 606-5950, Fax: (925) 940-9556
www.baylinear.com