ZETEX ZR431LF02

ADJUSTABLE PRECISION
ZENER SHUNT REGULATOR
ZR431L
Issue 1 - NOVEMBER 1998
DEVICE DESCRIPTION
FEATURES
The ZR431L is a three terminal adjustable
s h u n t r e g u l a t o r o f f e r i n g e x c e l l e nt
temperature stability and output current
handling capability up to 25mA. The output
voltage may be set to any chosen voltage
between 1.24 and 10 volts by selection of
two external divider resistors.
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The devices can be used as a replacement
for zener diodes in many applications
r e q u i r i n g a n i m p r ov e me nt i n z e n e r
performance.
The ZR431L is particularly used in the
feedback control loop of switch mode power
supplies. In this application the device 1.24
volt reference enables the generation of low
voltage supplies, typically 3.3 volts or 3 volts.
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Surface mount SOT23 package
TO92 package
2.5% and 1% tolerance
Maximum temperature coefficient 50
ppm/°C
Temperature compensated for
operation over the full temperature
range
Programmable output voltage
100µA to 25mA current sink capability
Low output noise
APPLICATIONS
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Shunt regulator
Series regulator
Voltage monitor
Over voltage/ under voltage protection
Switch mode power supplies
SCHEMATIC DIAGRAM
VZ
Vref
Gnd
ZR431L
Power Dissipation (Tamb=25°C,
Tjmax=150°C)
SOT23
330mW
TO92
600mW
ABSOLUTE MAXIMUM RATING
Cathode Voltage (VZ)
10V
Cathode Current
50mA
Operating Temperature
-40 to 85°C
Storage Temperature
-55 to 125°C
Recommended Operating Conditions
Min
Max
Cathode Voltage
VREF 10V
Cathode Current
100µA 25mA
ELECTRICAL CHARACTERISTICS TEST CONDITIONS (Unless otherwise stated):Tamb=25°C
VALUE
PARAMETER
Reference Voltage
SYMBOL MIN
2.5% Vref
1.0%
TYP
1.209 1.24
1.228 1.24
MAX UNITS CONDITIONS
1.271
1.252
V
IL=10mA (Fig1), VZ=Vref
IL=10mA, VZ=Vref
Ta=full range (Fig1)
Deviation of Reference
Input Voltage over
Temperature
Vdev
4.0
8.0
mV
Ratio of the change in
Reference Voltage to the
Change in Cathode
Voltage
∆Vref
∆VZ
0.5
2.0
mV/V VZ from Vref to 10V
IZ=10mA (Fig2)
0.11
0.4
µA
R1=10k,R2=O/C,lL=10mA(Fig2)
∆Iref
0.02
0.2
µA
R1=10k, R2=O/C, IL=10mA
Ta=full range (Fig2)
IZmin
30
100
µA
Off-state Current
IZoff
10
30
µA
VZ=10V, Vref =0V (Fig3)
Dynamic Output
Impedance
RZ
0.25
2
Ω
VZ=Vref (Fig1), f=0Hz,
IL=10mA
Reference Input Current
Iref
Deviation of Reference
Input Current over
Temperature
Minimum Cathode
Current for Regulation
0.02
Deviation of reference input voltage, Vdev, is defined as the maximum variation of the
reference input voltage over the full temperature range.
The average temperature coefficient of the
reference input voltage, Vref is defined as:
Vmax
Vdev x 1000000
Vref (ppm ⁄ °C)=
Vref (T1−T2)
The dynamic output impedance, Rz, is defined
Vmin
∆VZ
RZ =
as:
∆IZ
When the device is programmed with two
Vdev = Vmax - Vmin
external resistors, R1 and R2, (fig 2) , the
dynamic output impedance of the overall
circuit, R’, is defined as:
R1
R’=Rz (1+ )
T1
T2
R2
Temperature
ZR431L
CONNECTION DIAGRAMS
SOT23 Package Suffix – F
TO92 Package Suffix – C
Top View
Bottom View
ORDERING INFORMATION
Part
Number
Package Tol
%
Part Mark
ZR431LF02
SOT23
2.5
43L
ZR431LF01
SOT23
1
43M
ZR431LC02
TO92
2.5
ZR431L02
ZR431LC01
TO92
1
ZR431L01
ZR431L
TYPICAL CHARACTERISTICS
0
140
Vref = Vz
130
Iz 10mA
-1
Iz= 10mA
-2
120
-3
-4
110
-5
-6
100
-7
90
80
-40
-8
-9
-20
0
20
40
60
80
0
Temperature (° C)
2
4
6
8
10
12
Cathode Voltage (V)
Reference Current v Temperature
Change in Vref v Cathode Voltage
26
100
Vref = Vz
Vref = Vz
1mA
24
22
10
10mA
20
18
1
16
14
-40
-20
0
20
40
60
80
0.1
100
Temperature (° C)
Cathode Current v Temperature
10k
100k
Dynamic Impedance v Frequency
1.0
1.244
1.242
1k
Frequency (Hz)
Iz= 10mA
1.240
TO92
1.238
1.236
SOT23
1.234
1.232
-40
0
-20
0
20
40
60
Temperature (° C)
Reference Voltage v Temperature
80
25
50
75
85
Ambient Temprature (° C)
Power Dissipation Derating
100
ZR431L
DC TEST CIRCUITS
IL
Input
I ref
IL
Input
VZ
IZ
R1
Fig 1 – Test Circuit for Vz=Vref
Input
IZ
I ref
R2
VZ
I zoff
47nF
47nF
Vref
VZ
47nF
Vref
Fig 2 – Test Circuit for Vz>Vref
1-42
Fig 3 – Test Circuit for Off
State current
ZR431L
APPLICATION CIRCUITS
V+
Vout
V+
Vout
R1
R1
Vref
Vref
R2
Vout =
R2
R1
1+
Vref
Vout =
R2
1+
R1
Vref
R2
SHUNT REGULATOR
HIGHER CURRENT SHUNT REGULATOR
V+
ZSR***
V+
Vout
Out
In
Common
30
R1
0.01µF
Vref
R1
R2
Vout
Vref
R2
Vout MIN = Vref + Vreg
Vout =
1+
R1
Vref
R2
Vout =
1+
R1
Vref
R2
OUTPUT CONTROL OF A
THREE TERMINAL FIXED REGULATOR
SERIES REGULATOR
V+
V+
OUTPUT
R1A
R1B
Vref
INPUT
V on
2V
Vref
V off = V+
V TH = 2.5V
R2A
R2B
Low limit =
High limit =
SINGLE SUPPLY COMPARATOR
WITH TEMPERATURE
COMPENSATED THRESHOLD
1+
R1B
Vref
R2B
1+
R1A
Vref
R2A
OVER VOLTAGE / UNDER VOLTAGE
PROTECTION CIRCUIT
OUTPUT
ZR431L
TYPICAL CHARACTERISTICS
VZ
60
Iz =10mA
IZ
47k
50
240Ω
10µF
40
+
30
47k
20
-
10
0
100
10k
1k
100k
Frequency (Hz)
IZ = 10mA, TA = 25°C
Test Circuit for Open Loop Voltage Gain
Gain v Frequency
120Ω
Input Monitor
2.0
VZ
Repetitive
Pulse
Vz
1.0
Single
Pulse
Pulse
Generator
50Ω
0
5.0
2.5
INPUT
TA = 25°C
0
0
200
100
300
400
500
Test Circuit for Pulse Response
Time (µs)
Pulse Response
Vref < VZ < 10, IZ = 10mA, TA = 25°C
30
Input
VZ
150Ω
25
IZ
20
10k
STABLE
UNSTABLE
STABLE
15
10
100µF
5
0
10p
100p
1n
10n
.1µ
1µ
10µ
Load Capacitance(F)
Stability Boundary Conditions
Test Circuit for Stability
Boundary Conditions