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Semiconductor
SLF431xSF
Programmable Voltage Reference
Description
The SLF431 series are 3-terminal precision shunt regulators that are programmable over a wide voltage range of 2.495V to 36V with 0.5%, 1.0% tolerance. The SLF431 series have a low dynamic impedance of 0.15. These features make the SLF431 series an excellent replacement for zener diodes in numerous applications circuits that require a precision reference voltage.
Features
* Programmable output voltage from 2.495V to 36V * Voltage reference tolerance : 0.5%, 1.0% * Cathode current capability of 1mA to 100mA
Ordering Information
Type NO. SLF431xSF Marking 41 : Grade => A:1% , B:0.5% Package Code SOT-23F
Outline Dimensions ( Unit : mm )
2.30~2.50 1.50~1.70
Symbol
1
2.80~3.00 1.90 Typ.
3
0.45 Max.
2
Functional block diagram
Cathode Reference
+
-
0.80~1.00
V REF =2.495V
Anode
0.10 Max.
PIN Connections 1. Reference 2. Cathode 3. Anode
0.20 Max.
KSD-I5C007-000
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SLF431xSF
Absolute maximum ratings
Characteristic
Cathode to Anode voltage Cathode current Reference input current Power Dissipation Junction Temperature Operating temperature range Storage temperature range
[Ta=25]
Symbol
VKA IK Iref PD* TJ Topr Tstg
Rating
37 150 10 350 150 -40 ~ +85 -55 ~ +150
Unit
V mA mA mW
* With PCB (8x8mm copper area) at glass epoxy board (t=1.7mm, area = 20x20mm)
Recommended operating conditions
Characteristic
Cathode to Anode voltage Cathode current
Symbol
VKA IK
Rating Min.
Vref 1
Max.
36 100
Unit
V mA
Electrical Characteristics (Ta=25, unless otherwise noted.)
Characteristic
Reference voltage (Fig.1) Reference input voltage deviation over temperature (Fig.1, Note1,2) Ratio of delta reference input voltage to delta cathode voltage (Fig.2) Reference current (Fig.2) Reference input current deviation over temperature (Fig.2, Note 1,2) Minimum cathode current for regulation Off-state cathode current (Fig.3) Dynamic impedance (Fig.1, Note3)
Symbol
Vref Vref Vref VKA Iref Iref IK(MIN) IK(off)
Condition
VKA=Vref, IK=10mA VKA=Vref , IK=10mA @ -40C Ta 85C IK=10mA Vref VKA 36V IK=10mA R1=10K, R2= IK=10mA R1=10K, R2= @ -40C Ta 85C VKA=Vref VKA=36V, Vref=0V VKA=Vref, f 1.0KHz 1.0mA IK 100mA
VKA=VKA(10V) -Vref VKA=VKA(36V)-VKA(10V)
Min. Typ. Max.
SLF431BSF SLF431ASF 2.482 2.470 2.495 2.508 2.520 30 -2.7 -2.0 4.0 2.5 1.0 1000
Unit
V
7 -1.2 -0.7 1.8 0.4 0.35 2.7
mV mV/V m nA
ZKA
-
0.15
0.5
KSD-I5C007-000
2
SLF431xSF
Fig. 1 Test circuit for VKA=Vref Fig. 2 Test circuit for VKA>Vref Fig. 3 Test circuit for IK(off)
Input
IK
VKA
Input R1 R2
Vref IK Iref
VKA
Input
VKA
IK(off)
V KA = V ref x (1 +
R1 ) + I ref x R 1 R2
Note.
1. Ambient temperature range: TLOW = -40, THigh = 85 2. The deviation parameters Vref and Iref are defined as the difference between the maximum value and minimum value obtained over the full operating ambient temperature range that applied.
Vref = Vref Max - Vref Min Ta = T2 - T1
Ambient Temperature
The average temperature coefficient of the reference input voltage, Vref is defined as:
V ref x 10 6 ) ppm V ref (T a = 25) V ref ( )= T a (
Vref can be positive or negative depending on whether Vref Min or Vref Max occurs at the lower ambient temperature, refer to
Fig. 8 Example : Vref = 30mV and the slope is positive, Vref @ 25 = 2.495V Ta = 125
0.03 ( ) x 10 6 ppm 2.495 Vref ( )= = 96ppm / 125
3. The dynamic impedance ZKA is defined as:
KA = VKA I K
When the device is operating with two external resistors, R1 and R2, (refer to Fig.2) the total dynamic impedance of the circuit is given by:
KA ' = KA x (1 + R1 ) R2
KSD-I5C007-000
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SLF431xSF
Electrical Characteristics Curves (Continue)
Fig.4 IK vs VKA (1)
150 125
Fig.5 IK vs VKA (2)
Cathode current IK[mA]
100 75 50 25 0 -25 -50 -75
Cathode current IK [mA]
VKA=Vref Ta=25C
VKA=Vref, Ta=25C
3.0 2.0 1.0 0.0 -0.2
-100
-2
-1
0
1
2
3
0
1
2
3
Cathode Voltage VKA [V] Fig.6 IK(off) vs VKA
Ratio of delta reference input voltage to delta
Fig.7 Vref/VKA vs Ta
cathode voltag Vref /VKA [mV/V]
0.0 -0.1
Off-state cathode current IK(off) [A]
2.0
Vref=0V, Ta=25C
1.5
-0.2
1.0
-0.3
I 0.5
0.0 0 10 20 30 40 50
-0.4
-0.5 -50
Vref VKA 36V IK=10mA
-25 0 25 50 75 100
Cathode Voltage VKA [V] Fig.8 Vref vs Ta
2.545 500
Ambient Temperature Ta [C] Fig.9 PD vs Ta
With PCB (8x8mm copper area) at glass epoxy board (t=1.7mm,area=20x20mm)
Reference input voltage Vref [V]
VKA=Vref , Iref=10mA
2.525
Power dissipation PD [mW]
400
2.505
Vref(max) Vref(typ)
300
2.485
200
2.465
Vref(min)
-25 0 25 50 75 100
100 0
2.445 -50
0
25
50
75
100
125
150
Ambient Temperature Ta [C] KSD-I5C007-000
Ambient Temperature Ta [C]
4
SLF431xSF
Electrical Characteristics Curves
Fig.10 Pulse Response
7
Input and output voltage - V
6 5 4 3 2 1 0 -1 0 2 4
Ta=25C Input B
220
Output
A
Output
f=10KHz
50 GND
Fig.11 Test circuit for Fig. 10
6
8
10
t - Time [s ] Fig.12 Pulse Response (Magnify A of Fig.10)
7
Fig.13 Pulse Response (Magnify B of Fig.10)
7
Input and output voltage - V
6 5 4 3 2 1 0 -1 0
Input and output voltage - V
Ta=25C Input
6 5 4 3 2 1 0 -1 0
Ta=25C Input
Output
Output
1
2
3
4
5
1
2
3
4
5
t - Time [s ]
t - Time [s ]
KSD-I5C007-000
5
SLF431xSF
The AUK Corp. products are intended for the use as components in general electronic equipment (Office and communication equipment, measuring equipment, home appliance, etc.). Please make sure that you consult with us before you use these AUK Corp. products in equipments which require high quality and / or reliability, and in equipments which could have major impact to the welfare of human life(atomic energy control, airplane, spaceship, transportation, combustion control, all types of safety device, etc.). AUK Corp. cannot accept liability to any damage which may occur in case these AUK Corp. products were used in the mentioned equipments without prior consultation with AUK Corp.. Specifications mentioned in this publication are subject to change without notice.
KSD-I5C007-000
6

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