DN145 - New Voltage References Are Smaller and More Precise

Voltage References Are Smaller and More Precise
Design Note 145
John Wright
Introduction
Two new series voltage references bridge the gap
between small package size and high precision. Advances in design, process and packaging have made the
introduction of these new voltage references possible.
The low power LT®1460 is designed for minimum space
and is available in all popular voltages, including 2.5V,
5V and 10V. By contrast, the LT1236 is designed for
use in 12-bit and higher systems and combines 0.05%
accuracy, low noise, low drift and the SO-8 package
for difficult industrial temperature range applications.
Longer Battery Life with Precision
The LT1460 low power, series reference has a large
advantage over older shunt-style references. Shunt
references require a resistor from the power supply
to operate. This resistor must be chosen to supply the
maximum current that can ever be demanded by the
circuit being regulated. When the circuit being controlled
is not operating at this maximum current, the shunt
reference must always sink this current, resulting in
high dissipation and short battery life. Because the
LT1460 does not require a current setting resistor, it
can operate with any supply voltage from VOUT + 0.9V
to 20V, while maintaining minimum dissipation and
extending battery life. For example, if the 2.5V reference is not delivering load current, it dissipates only
500μW on a 5V supply, yet the same connection can
deliver 20mA of load current on demand.
High output accuracy is achieved by the use of trimmed,
precision thin-film resistors and curvature compensation is used to reduce drift. The LT1460 family is offered
in MSOP, SO-8, PDIP and low cost TO-92 packages.
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respective owners.
01/97/145_conv
The Small Fry
By themselves, surface mount packages are space efficient, but the use of a large output capacitor to stabilize
the reference limits the benefits of the small package.
The LT1460 is stable with capacitive loads or with no
capacitor at all. This can be helpful when fast settling is a
goal, because changes in the voltage across load capacitors must recover before the reference’s output value is
accurate.
The MSOP LT1460 uses so little PC board space that
there is a temptation to use the device as a local regulator. This is exactly what the LT1460 was designed to
do: deliver substantial load current while maintaining
reference-like features. At IOUT = 20mA, typical load
regulation is 70ppm/mA, yet the LT1460 can withstand
a short to ground without being destroyed. Additionally,
if the power supplies are reversed, the reverse battery
protection keeps the reference from conducting current
and being damaged.
Table 1. Key Specifications of the LT1460-2.5
Voltage Reference (SO-8 Package)
PARAMETER
CONDITIONS
Output Voltage Tolerance
LT1460A
LT1460B
Temperature Coefficient
LT1460A
LT1460B
MAX VALUE
0.075%
0.10%
0°C ≤ TA ≤70°C
10ppm/°C
20ppm/°C
Line Regulation
5V to 20V
Load Regulation Sourcing
0mA ≤ IOUT ≤ 20mA
25ppm/V
Dropout Voltage
IOUT = 0mA,
0°C ≤ TA ≤70°C
Supply Current
IOUT = 0mA
130μA
Reverse Leakage
IOUT = 0mA,
VIN = –20V
10μA
100ppm/mA
0.9V
been taken to minimize thermal regulation effects and
temperature-induced hysteresis. The LT1236 is also
available in an N8 package.
LOAD CAPACITANCE (μF)
10
1
The LT1236 combines superior accuracy and temperature coefficient specifications without the use of high
power, on-chip heaters. The LT1236 references are
based on a buried Zener diode structure that eliminates
noise and stability problems that plague surfacebreakdown devices.
0.1
0
DN145 F01
IOUT = 10mA
Table 2. Key Specifications of the LT1236-10
Voltage Reference (SO-8 Package)
Figure 1. Transient Response
PARAMETER
Higher Performance, Industrial Temperature
Range and Surface Mount
The LT1236 is a precision reference that combines
ultralow drift and noise with excellent long term
stability and high output accuracy. To address small
package requirements, the new reference is available
in the SO-8 package and guarantees critical reference
parameters from –40°C to 85°C. The LT1236 output will
both source and sink 10mA, is almost totally immune
to input voltage variations and is stable with any load
capacitor. Two output voltages are available: 5V and
10V. The 10V version can be used as a shunt regulator
(2-terminal Zener) with the same precision characteristics as the 3-terminal connection. Special care has
CONDITIONS
Output Voltage Tolerance
LT1236A
LT1236B
LT1236C
MAX VALUE
0.05%
0.10%
0.10%
Temperature Coefficient
LT1236A
LT1236B
LT1236C
–40°C ≤ TA ≤ 85°C
Line Regulation
11.5V ≤ VIN ≤ 14.5V
4ppm/V
Load Regulation Sourcing
0mA ≤ IOUT ≤ 10mA
25ppm/mA
Output Noise Voltage
10Hz ≤ f ≤ 1kHz
Supply Current
IOUT = 0mA
5ppm/°C
10ppm/°C
15ppm/°C
6μVRMS
1.7mA
CMOS DAC with Low Drift Full-Scale Trimming**
R3
4.02k
1%
OUT
LT1236-10
TRIM
GND
FB
R1
4.99k
1%
REF
CMOS
DAC
LTC8043
30pF
IOUT
R2
40.2Ω
1%
1.2k
–15V
*TC LESS THAN 200ppm/°C
**NO ZERO ADJUST REQUIRED
WITH LT1007 (V0S ≤ 60μV)
Data Sheet Download
www.linear.com
Linear Technology Corporation
R4*
100Ω
FULL-SCALE
ADJUST
–
LT1007C
+
10V
F.S.
LT1236 TA14
For applications help,
call (408) 432-1900
dn145f_conv LT/GP 0197 185K • PRINTED IN THE USA
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