ETC ZR431F01TA

ADJUSTABLE PRECISION
ZENER SHUNT REGULATOR
ZR431
ISSUE 3 – MARCH 1998
DEVICE DESCRIPTION
FEATURES
The ZR431 is a three terminal adjustable
s hu n t r e g u l a t or o f f e r i n g e xc el l e nt
temperature stability and output current
handling capability up to 100mA. The output
voltage may be set to any chosen voltage
between 2.5 and 20 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 qu i r i n g a n i mpr o ve me nt i n z e ner
performance.
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Surface mount SO8, SOT89, SOT223
and SOT23 packages
TO92 package
2% and 1 % tolerance
Max. temperature coefficient 55 ppm/°C
Temperature compensated for operation
over the full temperature range
Programmable output voltage
50µA to 100mA 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
V ref
Gnd
4-189
ZR431
ABSOLUTE MAXIMUM RATING
Power Dissipation (Tamb=25°C,Tjmax=150°C)
SOT23
330mW
TO92
780mW
SOT223
2W
SO8
780mW
SOT89
1.5W
Cathode Voltage (VZ)
20V
Cathode Current
150mA
Operating Temperature
-40 to 85°C
Storage Temperature
-55 to 125°C
Recommended Operating Conditions
Min Max
Cathode Voltage
Vref 20V
Cathode Current
50µA 100mA
ELECTRICAL CHARACTERISTICS TEST CONDITIONS (Unless otherwise stated):Tamb=25°C
SYMBOL
PARAMETER
Reference Voltage
2% Vref
1%
Deviation of Reference Input Vdev
Voltage over Temperature
VALUE
MIN TYP MAX UNITS CONDITIONS
2.45 2.50 2.55 V
2.475 2.50 2.525
8.0
17
IL=10mA (Fig1), VZ=Vref
mV
IL=10mA, VZ=Vref
Ta=full range (Fig1)
-1.85 -2.7
mV/V
VZ from Vref to 10V
IZ=10mA (Fig2)
-1.0
mV/V
VZ from 10V to 20V
IZ=10mA (Fig2)
Ratio of the change in
Reference Voltage to the
Change in Cathode
Voltage
∆Vref
∆VZ
Reference Input Current
Iref
0.12 1.0
µA
R1=10k, R2=O/C, lL=10mA
(Fig2)
Deviation of Reference
Input Current over
Temperature
∆Iref
0.04 0.2
µA
R1=10k, R2=O/C, IL=10mA
Ta=full range (Fig2)
Minimum Cathode
Current for Regulation
IZmin
35
50
µA
VZ=Vref (Fig1)
Off-state Current
IZoff
0.1
µA
VZ=20V, Vref =0V (Fig3)
-2.0
0.75 Ω
Dynamic Output Impedance RZ
VZ=Vref (Fig1), f=0Hz
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:
Vdev x 1000000
Vref (T1−T2)
The dynamic output impedance, Rz, is defined as:
∆VZ
RZ =
∆IZ
Vmax
Vref (ppm ⁄ °C)=
Vmin
Vdev = Vmax - Vmin
T1
Temperature
T2
When the device is programmed with two external
resistors, R1 and R2, (fig 2) , the dynamic output
impedance of the overall circuit, R’, is defined as:
R1
R’=Rz (1+ )
R2
4-190
ZR431
160
Vref=VZ
IZ=10mA
Reference Current (nA)
150
140
130
120
110
100
-40
-20
0
20
40
60
80
0
IZ=10mA
-5
-10
-15
-20
-25
0
5
10
15
20
Cathode Voltage (V)
Reference Current v Temperature
Change in Vref v Cathode Voltage
38
100
Vref=VZ
Vref=VZ
1mA
36
Dynamic Impedance (Ω)
Minimum Cathode Current(µA)
Temperature (°C)
Change in Reference Output Voltage (mV)
TYPICAL CHARACTERISTICS
34
32
30
28
26
24
-40
-20
0
20
40
60
10
10mA
1.0
0.1
100
80
1k
10k
100k
1M
Frequency (Hz)
Temperature (°C)
Dynamic Impedance v Frequency
Cathode Current v Temperature
2.506
2.0
IZ=10mA
Power Dissipation (W)
Reference Voltage (V)
2.504
2.502
2.500
2.498
2.496
2.494
2.492
SOT 89
SOT 223
1.0
SO8/TO92
SOT23
0
2.490
-40
25
-20
0
20
40
60
80
50
75
85
Ambient Temperature (°C)
Power Dissipation Derating
Temperature (°C)
Reference Voltage v Temperature
4-191
100
ZR431
TYPICAL CHARACTERISTICS
Open Loop Voltage Gain (dB)
60
VZ
IZ
15k
40
230
9µF
+
20
8k25
0
100
1k
10k
100k
-
1M
IZ = 10mA, TA = 25°C
Frequency (Hz)
Gain v Frequency
Test Circuit for Open Loop Voltage Gain
220
V
Input Monitor
3.0
Z
Voltage Swing (V)
Repetitive pulse
2.0
Single pulse
VZ
1.0
Pulse
Generator
0
5.0
INPUT
0
0
0.2
0.4
0.6
0.8
1.0
Time (µs)
TA = 25°C
Test Circuit for Pulse Response
Pulse Response
100
Cathode Current (mA)
50
Input
80
150
VZ
IZ
STABLE
STABLE
10k
60
40
20
0
10p
100p
1000p
0.01µ
0.1µ
1µ
Vref < VZ < 20, IZ = 10mA, TA = 25°C
Load Capacitance (F)
Stability Boundary Conditions
Test Circuit for Stability Boundary Conditions
4-192
ZR431
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+
R1A
OUTPUT
R1B
Vref
INPUT
V on
2V
Vref
V off = V+
R2A
V TH = 2.5V
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
4-193
OUTPUT
ZR431
DC TEST CIRCUITS
IL
Input
Input
VZ
I zoff
Fig 1 – Test Circuit for Vz=Vref
Fig 2 – Test Circuit for Vz>Vref
4-194
Fig 3 – Test Circuit for Off
State current
ZR431
CONNECTION DIAGRAMS
SO8 Package Suffix – N8
SOT223 Package Suffix – G
Top View
Top View –
Pin 4 floating or connected to pin 2
SOT23 Package Suffix – F
TO92 Package Suffix – C
Top View
Bottom View
SOT89
ORDERING INFORMATION
Part Number
Package
Tol.
%
Part Mark
ZR431C01
TO92
1.0
ZR43101
ZR431C
TO92
2.0
ZR431
ZR431G01
SOT223
1.0
ZR43101
ZR431G
SOT223
2.0
ZR431
ZR431F01
SOT23
1.0
43B
ZR431F
SOT23
2.0
43A
ZR431Z01
SOT89
1.0
43D
ZR431Z
SOT89
2.0
43C
ZR431N801
SO8
1.0
ZR43101
ZR431N8
SO8
2.0
ZR431
Package Suffix – Z
Top View –
Pin 4 floating or connected to pin 2
4-195