KODENSHI SJ432BS

SJ432xx
Programmable Voltage Reference
Description
The SJ432 series are 3-terminal precision shunt regulators that are programmable over a wide voltage range of
1.24V to 16V with ±0.5%, ±1.0% tolerance. The SJ432 series have a low dynamic impedance of 0.25Ω. These
features make the SJ432 series an excellent replacement for zener diodes in numerous applications circuits that
require a precision reference voltage.
Features
• Programmable output voltage from 1.24V to 16V
• Voltage reference tolerance : ±0.5%, ±1.0%
• Cathode current capability of 80 ㎂ to 30mA
• High quality ESD protected : ESD rating – Typ. 4kV(HBM Mode)
– Typ. 400V(MM Mode)
◈ Pin Assignment
(Marking Side View)
(Top View)
(Marking Side View)
A
R
K
R A K
RA K
PKG : SOT-23
PKG : TO-92
Apply Device : SJ432xS
Apply Device : SJ432x
PKG : TO-92M
Apply Device : SJ432xM
A
R
NC
NC
K
PKG : SOT-25
Apply Device : SJ432xN
[ K : Cathode,
A: Anode,
KSD-I0A016-001
SEPT. 2010 Rev01
R : Reference ]
1
SJ432xx
Symbol
Functional block diagram
Cathode(K)
Reference(R)
+
-
VREF =1.24V
Anode(A)
◈ Ordering Information
Vref Tolerance
±1%
±0.5%
PKG Type
Device Name
Marking
TO-92
SJ432A
SJ432A
TO-92M
SJ432AM
SJ432A
SOT-23
SJ432AS
2GA□1)
SOT-25
SJ432AN
2NA□1)
TO-92
SJ432B
SJ432B
TO-92M
SJ432BM
SJ432B
SOT-23
SJ432BS
2GB□1)
SOT-25
SJ432BN
2NB□1)
Note 1) □ : Year & Week Code
KSD-I0A016-001
SEPT. 2010 Rev01
2
SJ432xx
Absolute maximum ratings
[Ta=25℃]
Characteristic
Symbol
Rating
Unit
VKA
20
V
Cathode current
IK
30
mA
Reference input current
Iref
3
mA
350
mW
400
mW
400
mW
625
mW
Cathode to Anode voltage
SOT-23(Note1)
Power Dissipation
TO-92M(Note2)
PD
SOT-25(Note1)
TO-92(Note2)
Junction Temperature
TJ
150
℃
Operating temperature range
Topr
-40 ~ +85
℃
Storage temperature range
Tstg
-55 ~ +150
℃
Note 1 : Mounted on a glass epoxy PCB board (20 × 20mm).TA=25℃
Note 2 : TA=25℃
Recommended operating conditions
Characteristic
Rating
Symbol
Cathode to Anode voltage
Cathode current
Unit
Min.
Max.
VKA
Vref
18
V
IK
0.1
25
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
VKA=Vref, IK=10mA
ΔVref
VKA=Vref, IK=10mA
@ -40˚C ≤ Ta ≤ 85˚C
Max
.
SJ432Bx
1.234
1.246
SJ432Ax
1.228
1.240
1.252
Unit
V
-
10
20
mV
-
-1.0
-2.7
mV/V
IK=10mA
R1=10KΩ, R2=∞
-
1.0
1.5
μΑ
IK=10mA
R1=10KΩ, R2=∞
@ -40˚C ≤ Ta ≤ 85˚C
-
0.04
0.08
μΑ
IK(MIN)
VKA=Vref
-
55
80
μΑ
IK(off)
VKA=16V, Vref=0V
-
5
50
nA
ZKA
VKA=Vref, f ≤ 1.0KHz
0.1mA ≤ IK ≤ 25mA
-
0.25
0.4
Ω
ΔVref
ΔVKA
Iref
ΔIref
IK=10mA
Vref ≤ VKA ≤ 16V
KSD-I0A016-001
SEPT. 2010 Rev01
Min. Typ.
Condition
△Vref=Vref (16V)-Vref
△VKA=VKA(16V)-Vref
3
SJ432xx
Fig. 2 Test circuit for VKA>Vref
Fig. 1 Test circuit for VKA=Vref
Input
VKA
Input
IK
VKA
Fig. 3 Test circuit for IK(off)
Input
IK(off)
IK
R1
VKA
Iref
R2
V KA = V ref × (1 +
R1
) + I ref × 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, αVref is defined as:
ΔV ref
× 10 6 )
ppm
V ref (T a = 25℃)
)=
α V ref (
℃
ΔT a
(
αVref 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 = 10mV and the slope is positive,
△Vref @ 25℃ = 1.24V
△Ta = 125℃
0.010
(
) × 10 6
ppm
1.241
αVref (
)=
= 65ppm / ℃
℃
125
3. The dynamic impedance ZKA is defined as:
Ζ KA =
ΔVKA
ΔI 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:
Ζ KA ' = Ζ KA × (1 +
KSD-I0A016-001
SEPT. 2010 Rev01
R1
)
R2
4
SJ432xx
Electrical Characteristics Curves (Continue)
Fig.4 IK vs VKA (1)
Fig.5 IK vs VKA (2)
30
300
Cathode current IKA [μA]
Cathode current IK [mA]
VKA=Vref
Ta=25°C
20
10
0
250
VKA=Vref
200
Ta=25°C
150
100
50
0
-10
-10
-50
0
0.5
1.5
1.0
0
0.5
1.5
Fig.6 I K(off) vs VKA
Fig.7 ΔVref/ΔVKA vs Ta
0.3
0.2
0.0
4
12
8
16
20
Vref ≤ VKA ≤ 16V, IK=10mA
-0.1
-0.2
-0.3
-0.4
-0.5
-50
-25
0
25
50
75
Ambient Temperature Ta [˚C]
Fig.8 Vref vs Ta
Fig.9 PD vs Ta
500
Power dissipation PD [mW]
Vref(max)
1.26
Vref(typ)
1.24
Vref(min)
1.22
100
With PCB (8×8mm copper
area) at glass epoxy board
(area=20×20mm) / SOT-23
VKA=Vref , IK=10mA
1.28
2.0
0.0
Cathode Voltage VKA [V]
1.30
1.20
-50
1.0
Cathode Voltage VKA [V]
I 0.1
Reference input voltage Vref [V]
-0.5
Cathode Voltage VKA [V]
Vref=0V, Ta=25°C
0
-1
2.0
cathode voltage ΔVref /ΔVKA [mV/V]
0.4
-0.5
Ratio of delta reference input voltage to delta
Off-state cathode current IK(off) [μA]
-1
400
300
200
100
0
-25
0
25
50
75
100
25
50
75
100
125
150
Ambient Temperature Ta [˚C]
Ambient Temperature Ta [˚C]
KSD-I0A016-001
SEPT. 2010 Rev01
0
5
SJ432xx
Electrical Characteristics Curves
㎃
Output
IK
R1
CL
R2
GND
0
Unstable Regions
VKA
R1 [KΩ]
R2 [KΩ]
A, B
Vref
0
∞
A
10V
10
1.415
㎌
Fig.11 Test circuit for Fig. 10
Fig.10 Stability Boundary Conditions
KSD-I0A016-001
SEPT. 2010 Rev01
6
SJ432xx
◈TO-92 Outline Dimension(mm)
KSD-I0A016-001
SEPT. 2010 Rev01
7
SJ432xx
◈ TO-92M Outline Dimension (unit : mm)
KSD-I0A016-001
SEPT. 2010 Rev01
8
SJ432xx
◈ SOT-23 Outline Dimension (unit : mm)
※ Recommend PCB solder land
KSD-I0A016-001
SEPT. 2010 Rev01
[Unit: mm]
9
SJ432xx
◈ SOT-25 Outline Dimension (unit : mm)
※ Recommend PCB solder land
KSD-I0A016-001
SEPT. 2010 Rev01
[Unit: mm]
10
SJ432xx
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-I0A016-001
SEPT. 2010 Rev01
11