6431B [MICROSEMI]
PRECISION PROGRAMMABLE REFERENCES; 精密可编程参考型号: | 6431B |
厂家: | Microsemi |
描述: | PRECISION PROGRAMMABLE REFERENCES |
文件: | 总11页 (文件大小:400K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
LX6431 / 6431A / 6431B
P
RECISION
P
ROGRAMMABLE
REFERENCES
P
R O D U C T I O N D A T A S H E E T
T
H E
I
N F I N I T E
P
O W E R O F
I N N O V A T I O N
KEY FEATURES
DESCRIPTION
The LX6431 series precision adjustable three
terminal shunt voltage regulators are pin-to-pin
compatible with the industry standard TL431, but
equipment as well as reducing the voltage
programming errors due to the impedance of the
divider network (See product Highlight)
Unconditionally Stable for All
Cathode To Anode Capacitance
Values
with significant improvements.
The LX6431
In addition, the LX6431B has an improved
initial accuracy of 0.4%, and the output voltage is
programmable by using two external resistors
from 2.5V to 36V.
These devices offer low output impedance for
improved load regulation. The typical output
impedance of these devices is 100mΩ. The
reduced reference input bias current and minimum
operating currents make these devices suitable for
portable and micro power applications.
Reduced Reference Input
Current Allowing The Use of
Higher Value Divider Resistors
(0.5µA)
Initial Voltage Reference
Accuracy of 0.4% (LX6431B)
Sink Current Capability 0.6mA to
100mA
Typical Output Dynamic
Impedance Less Than 100mΩ
Adjustable Output Voltage From
2.5V to 36V
design has eliminated regions of instability
common to older generation shunt regulator
products like the TL431. Designs are made simpler
by eliminating the task of insuring capacitive loads,
and output voltage and cathode currents don’t
combine for unstable operation. The capacitor
value is chose simply to give the best load transient
response without the possibility of instability.
A
lower reference input current allows the use of
higher value reference divider resistors, reducing
the current drain from batteries in portable
IMPORTANT: For the most current data, consult MICROSEMI’s website: http://www.microsemi.com
PRODUCT HIGHLIGHT
Output Voltage Error Due to IREF
PACKAGE ORDER INFO
Plastic TO-89
3-Pin
Plastic SOIC
Plastic TO-92
3-Pin
Initial PK
DM
LP
8-Pin
TA (°C)
Tolerance
RoHS Compliant / Pb-free RoHS Compliant / Pb-free RoHS Compliant / Pb-free
Transition D/C: 0518
LX6431CPK
LX6431ACPK
LX6431BCPK
LX6431IPK
Transition D/C: 0440
LX6431CDM
LX6431ACDM
LX6431BCDM
LX6431IDM
Transition D/C: 0509
LX6431CLP
LX6431ACLP
LX6431BCLP
LX6431ILP
2%
1%
0.4%
2%
0 to 70
-40 to 85
1%
0.4%
LX6431AIPK
LX6431BIPK
LX6431AIDM
LX6431BIDM
LX6431AILP
LX6431BILP
Note: Available in Tape & Reel. Append the letters “TR” to the part number. (i.e. LX6431CDM-TR)
Copyright © 1999
Rev. 1.4a,2005-04-04
1
LX6431 / 6431A / 6431B
P
RECISION
P
ROGRAMMABLE
REFERENCES
P
R O D U C T I O N
D
A T A
S H E E T
T
H E
I
N F I N I T E
P
O W E R O F
I N N O V A T I O N
ABSOLUTE MAXIMUM RATINGS
PACKAGE PIN OUT
Cathode to Anode Voltage (VKA).................................................................... -0.3V to 37V
Reference Input Current (IREF).....................................................................-50µA to 10µA
Continuous Cathode Current (IK)........................................................... -100mA to 150mA
Operating Temperature Range................................................................................... 150°C
Maximum Operating Junction Temperature
Plastic (DM & LP Packages) ..................................................................................... 150°C
Storage Temperature Range.........................................................................-65°C to 150°C
Package Peak Temp. for Solder Reflow (40 seconds maximum exposure) ... 260°C (+0 -5)
1
2
3
4
8
7
6
5
CATHODE
N.C.
REF
ANODE
ANODE
N.C.
ANODE
N.C.
DM PACKAGE
(Top View)
Note: Exceeding these ratings could cause damage to the device. All voltages are with respect to
1
CATHODE
Ground. Currents are positive into, negative out of specified terminal
Pin numbers refer to DIL packages only.
.
2
3
ANODE
REF
THERMAL DATA
LP PACKAGE
(Top View)
Plastic SOIC 8-Pin
DM
1
2
3
THERMAL RESISTANCE
-
JUNCTION TO
A
A
MBIENT, θJA
MBIENT, θJA
165°C/W
156°C/W
REF
ANODE
Plastic TO-92 3-Pin
LP
THERMAL RESISTANCE-JUNCTION TO
CATHODE
PK PACKAGE
Plastic TO-89 3-Pin
PK
(Top View)
35°C/W
71°C/W
THERMALRESISTANCE
THERMAL RESISTANCE
Junction Temperature Calculation: TJ = TA + (PD x θJA).
-
JUNCTION TO TAB, θJT
N.C. – No Connection
-
JUNCTION TO MBIENT, θJA
A
RoHS / Pb-free 100% Matte Tin Lead Finish
The θJA numbers are guidelines for the thermal performance of the device/pc-board system. All of the
above assume no ambient airflow.
SIMPLIFIED BLOCK DIAGRAM
Cathode (K)
REF(R)
+
-
VREF
Anode (A)
Copyright © 1999
Rev. 1.4a,2005-04-04
2
P RODUCT DATABOOK 1 9 9 6 / 1 9 9 7
LX6431/ LX6431A/ LX6431B
P
RECISION
P
ROGRAMMABLE
R
EFERENCES
P R O D U C T I O N D A T A S H E E T
E L E C T R I C A L C H A R A C T E R I S T I C S (Note 2)
(Unless otherwise specified, these specifications apply over the operating ambient temperatures for LX6431C/LX6431AC/LX6431BC with 0°C ≤ TA
70°C, LX6431I/LX6431AI/LX6431BI with -40°C ≤ TA ≤ 85°C.)
≤
LX6431
Min. Typ. Max.
Parameter
Symbol
Test Conditions
Units
Reference Input Voltage
LX6431
V
IK = 10mA, VKA = V , T = 25°C,
2440
2470
2490
2550
2520
2510
15
mV
mV
mV
mV
mV
mV
mV
mV
mV
REF
REF
A
LX6431A
LX6431B
LX6431
IK = 10mA, VKA = V , T = 25°C
REF A
IK = 10mA, VKA = V , T = 25°C
REF
A
Reference Drift
IK = 10mA, VKA = V , 0°C ≤ T ≤ 70°C
REF
A
IK = 10mA, VKA = V , -40°C ≤ T ≤ 85°C
25
REF
A
LX6431A
LX6431B
IK = 10mA, VKA = V , 0°C ≤ T ≤ 70°C
15
REF
A
IK = 10mA, VKA = V , -40°C ≤ T ≤ 85°C
25
REF
A
IK = 10mA, VKA = V , 0°C ≤ T ≤ 70°C
15
REF
A
IK = 10mA, VKA = V , -40°C ≤ T ≤ 85°C
20
REF
A
Voltage Ratio, Reference to Cathode
(Note 3)
IK = 10mA, VKA = 2.5V to 36V, T = 25°C
0.3
0.3
1
mV/V
mV/V
µA
A
IK = 10mA, VKA = 2.5V to 36V, T = Operating Range
1
A
Reference Input Current
IREF
IMIN
V
KA = V , T = 25°C
0.1 0.5
0.1 0.5
0.4 0.6
0.4 0.6
REF
A
V
KA = V , T = Operating Range
µA
REF
A
Minimum Operating Current
V
KA = VREF to 36V, T = 25°C
mA
mA
µA
A
V
KA = VREF to 36V, T = Operating Range
A
Off-State Cathode Current
Dynamic Impedance
IOFF
ZKA
V
KA = 36V, VREF = 0V, T = 25°C
0.3
1
A
V
KA = V , IK = 0.6mA to 100mA, f ≤ 1kHz, T = 25°C
30 100
mΩ
REF
A
Note 2. These parameters are guaranteed by design.
∆VREF
Note 3.
Ratio of change in reference input voltage
to the change in cathode voltage.
∆VKA
Copyright © 1999
Rev. 1.4a
3
P RODUCT DATABOOK 1 9 9 6 / 1 9 9 7
LX6431/ LX6431A/ LX6431B
P
RECISION
P
ROGRAMMABLE
R
EFERENCES
P R O D U C T I O N D A T A S H E E T
G RAP H / CURVE INDEX
FIG URE INDEX
Characteristic Curves
Application Information
FIGURE #
FIGURE #
1. REFERENCE VOLTAGE vs. FREE-AIR TEMPERATURE
2. REFERENCE CURRENT vs. FREE-AIR TEMPERATURE
3. CATHODE CURRENT vs. CATHODE VOLTAGE
7. COMPARISON OF REFERENCE RESISTOR VALUES BETWEEN AN
LX6431B AND A TL1431. Resistors used with the LX6431B are 5
times higher in value.
8. COMPARISON OF REFERENCE RESISTOR VALUES BETWEEN AN
LX6431B AND A TL1431. When used as 0.5%, 5V shunt
regulators.
4. OFF-STATE CATHODE CURRENT vs. FREE-AIR TEMPERATURE
5. RATIO OF DELTA REFERENCE VOLTAGE TO DELTA CATHODE
VOLTAGE vs. FREE-AIR TEMPERATURE
6. EQUIVALENT INPUT NOISE VOLTAGE vs. FREQUENCY
Parameter Measurement Information
FIGURE #
9. TEST CIRCUIT FOR VKA = V
REF
10. TEST CIRCUIT FOR VKA > V
REF
11. TEST CIRCUIT FOR IOFF
Typical Characteristics
FIGURE #
12. EQUIVALENT INPUT NOISE VOLTAGE OVER A 10-SECOND PERIOD
13. SMALL-SIGNAL VOLTAGE AMPLIFICATION vs. FREQUENCY
14. REFERENCE IMPEDANCE vs. FREQUENCY
15. PULSE RESPONSE
16. DIFFERENTIAL VOLTAGE AMPLIFICATION vs. FREQUENCY
Copyright © 1999
Rev. 1.4a
4
P RODUCT DATABOOK 1 9 9 6 / 1 9 9 7
LX6431/ LX6431A/ LX6431B
P
RECISION
P
ROGRAMMABLE
R
EFERENCES
P R O D U C T I O N D A T A S H E E T
C H A R A C T E R I S T I C C U R V E S
FIGURE 1. — REFERENCE VOLTAGE
FIGURE 2. — REFERENCE CURRENT
vs. FREE-AIR TEMPERATURE
vs. FREE-AIR TEMPERATURE
2.52
2.51
2.50
2.49
2.48
0.15
IK = 10mA
VREF = VKA
IK = 10mA
R1 = 10k
W
0.14
0.13
0.12
0.11
0.1
-50
-25
0
25
50
75
100
125
-50
-25
0
25
50
75
100
125
(TA) Ambient Temperature - (°C)
(TA) Ambient Temperature - (°C)
FIGURE 3. — CATHODE CURRENT vs. CATHODE VOLTAGE
FIGURE 4. — OFF-STATE CATHODE CURRENT
vs. FREE-AIR TEMPERATURE
800
0.8
VKA = VREF
VKA = 36V
0.7
T = 25°C
A
V
REF = 0
600
400
200
0
0.6
0.5
0.4
0.3
0.2
0.1
0
-200
-2
-1
0
1
2
3
4
-50
-25
0
25
50
75
100
125
(V ) Cathode Voltage - (V)
(TA) Ambient Temperature - (°C)
KA
Copyright © 1999
Rev. 1.4a
5
P RODUCT DATABOOK 1 9 9 6 / 1 9 9 7
LX6431/ LX6431A/ LX6431B
P
RECISION
P
ROGRAMMABLE
R
EFERENCES
P R O D U C T I O N D A T A S H E E T
C H A R A C T E R I S T I C C U R V E S
FIGURE 5. — RATIO OF DELTA REFERENCE VOLTAGE TO DELTA
FIGURE 6. — EQUIVALENT INPUT NOISE VOLTAGE
CATHODE VOLTAGE vs. FREE-AIR TEMPERATURE
vs. FREQUENCY
0
260
VKA = 3V to 36V
-0.1
IO = 10mA
240
T = 25°C
A
220
200
180
160
140
120
100
-0.2
-0.3
-0.4
-0.5
-0.6
-50
-25
0
25
50
75
100
125
10
100
1k
10k
100k
(TA) Ambient Temperature - (°C)
(f) Frequency - (Hz)
Copyright © 1999
Rev. 1.4a
6
P RODUCT DATABOOK 1 9 9 6 / 1 9 9 7
LX6431/ LX6431A/ LX6431B
P
RECISION
P
ROGRAMMABLE
R
EFERENCES
P R O D U C T I O N D A T A S H E E T
A P P L I C A T I O N I N F O R M A T I O N
Application Hints
VKA
5V, 0.5%
The reference input current of the LX6431 series voltage refer-
ences is much lower than other similar precision parts. This helps
to design programmable voltage references that can use much
higher value programming resistors while maintaining the same
accuracy as the other precision parts. Figure 7 below shows a 5V,
1% shunt regulator using the LX6431B and a shunt regulator using
the TL1431 (Also available from Linfinity). Figure 8 shows 0.5%
shunt regulators. Noteworthy are the values of the reference
resistors used in the two circuits. With the LX6431B it is possible
to use 25k resistors for setting the output voltage with 1%
precision as opposed to 5k programming resistors when the same
precision needs to be achieved with a TL1431.
V
IN
1k
0.1%
R1
R2
LX6431B
1k
0.1%
GND
a)
VKA
5V, 0.5%
V
IN
VKA
5V, 1%
V
240
0.1%
IN
R1
R2
25k
R1
TL1431
0.1%
240
0.1%
LX6431B
25k
R2
0.1%
GND
b)
GND
a)
FIGURE 8 — Comparison of reference resistor values between an
LX6431B and a TL1431, when used as 0.5%, 5V shunt regulators.
VKA
5V, 1%
V
IN
5k
R1
The output voltage of the reference can be programmed by using
the formula below:
0.1%
TL1431
R1
V
2.5
1 +
KA
5k
R2
R2
0.1%
If more accuracy is required then the effects of the input bias
current (IREF) must be taken into account. The formula below
accounts for the error this current produces.
GND
b)
R1
V
= 2.5
1 +
+ I
R1
FIGURE 7 — Comparison of reference resistor values between an
LX6431B and an TL1431, resistors used with the
LX6431B are 5 times higher in value.
KA
REF
R2
Smaller values of programming resistors tend to minimize bias
current errors. In this respect the low input current characteristics
of the LX6431B helps to reduce the power dissipation on the
programming resistors by a factor of five compared to other
references like the TL1431 and TL431.
The LX6431 series of voltage references have an enhanced
circuit design that can tolerate any value of cathode to anode
capacitance.
Copyright © 1999
Rev. 1.4a
7
P RODUCT DATABOOK 1 9 9 6 / 1 9 9 7
LX6431/ LX6431A/ LX6431B
P
RECISION
P
ROGRAMMABLE
R
EFERENCES
P R O D U C T I O N D A T A S H E E T
P A R A M E T E R M E A S U R E M E N T I N F O R M A T I O N
VKA
Input
VKA
Input
IK
IK
R
1
IREF
R
VREF
2
VREF
FIGURE 10 — TEST CIRCUIT FOR VKA > V
FIGURE 9 — TEST CIRCUIT FOR VKA = V
REF
REF
VKA
Input
IOFF
FIGURE 11 — TEST CIRCUIT FOR IOFF
Copyright © 1999
Rev. 1.4a
8
P RODUCT DATABOOK 1 9 9 6 / 1 9 9 7
LX6431/ LX6431A/ LX6431B
P
RECISION
P
ROGRAMMABLE
R
EFERENCES
P R O D U C T I O N D A T A S H E E T
T Y P I C A L C H A R A C T E R I S T I C S
6
f = 0.1 to 10Hz
IK = 10mA
5
4
T = 25°C
A
3
2
1
0
-1
-2
-3
-4
-5
-6
0
2
4
6
8
10
(t) Time - (s)
FIGURE 12. — EQUIVALENT INPUT NOISE VOLTAGE OVER A 10-SECOND PERIOD
19.1V
1k
VCC
910
500µF
2000µF
VCC
1µF
LX6431
(DUT)
TLE2027
AV = 10V/ mV
820
16
TLE2027
2.2µF
16k
16k
1µF
33k
33k
CRO
1M
AV = 2V/ V
0.1µF
VEE
VEE
Test Circuit for 0.1Hz to 10Hz Equivalent Input Noise Voltage
Copyright © 1999
Rev. 1.a
9
P RODUCT DATABOOK 1 9 9 6 / 1 9 9 7
LX6431/ LX6431A/ LX6431B
P
RECISION
P
ROGRAMMABLE
R
EFERENCES
P R O D U C T I O N D A T A S H E E T
T Y P I C A L C H A R A C T E R I S T I C S
FIGURE 13. — SMALL-SIGNAL VOLTAGE AMPLIFICATION
vs. FREQUENCY
70
Output
IK = 10mA
T = 25°C
60
50
40
30
20
10
0
A
IK
230
15k
9µF
8.25k
GND
Test Circuit for Voltage Amplification
-10
10k
1M
10M
1k
100k
(f) Frequency - (Hz)
FIGURE 14. — REFERENCE IMPEDANCE vs. FREQUENCY
100
Output
IK = 1mA to 100mA
1k
T = 25°C
A
IK
10
50
1
GND
Test Circuit for Reference Impedance
0.1
1k
100k
1M
10M
10k
(f) Frequency - (Hz)
Copyright © 1999
Rev. 1.4a
10
P RODUCT DATABOOK 1 9 9 6 / 1 9 9 7
LX6431/ LX6431A/ LX6431B
P
RECISION
P
ROGRAMMABLE
R
EFERENCES
P R O D U C T I O N D A T A S H E E T
T Y P I C A L C H A R A C T E R I S T I C S
FIGURE 15. — PULSE RESPONSE
6
5
Output
220
4
3
Pulse
Generator
f = 100kHz
50
2
1
0
3
2
GND
1
0
Test Circuit for Pulse Response
0
1
2
3
4
5
6
(t) Time - (µs)
FIGURE 16. — DIFFERENTIAL VOLTAGE AMPLIFICATION
vs. FREQUENCY
50
180
90
Phase Shift
GM/ 20
30
+35V
R3
1K
C2
To Network
10
0
0
Analyzer as DUT
Input Port with
10X Probe
To Network
Analyzer as
DUT Output Port
10µF
R1
100K
C1
-10
-90
-180
R2
R4
10µF
100K
2
-30
-50
DUT is bias at 30mA and 5V
Test Setup for Measuring AVD vs. Frequency
1k
10k
100k
1M
Frequency - (Hz)
P
mf
a
Copyright © 1999
Rev. 1.4a
11
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