參數(shù)資料
型號(hào): AD698
廠商: Analog Devices, Inc.
英文描述: Universal LVDT Signal Conditioner
中文描述: 通用LVDT信號(hào)調(diào)理
文件頁(yè)數(shù): 10/12頁(yè)
文件大?。?/td> 228K
代理商: AD698
REV. B
–10–
AD698
Determining LVDT Sensitivity
LVDT sensitivity can be determined by measuring the LVDT
secondary voltages as a function of primary drive and core posi-
tion, and performing a simple computation.
Energize the LVDT at its recommended primary drive level,
V
PRI
(3 V rms for the E100). Set the core displacement to its
mechanical full-scale position and measure secondary voltages
V
A
and V
B
.
Sensitivity
=
V
SECONDARY
V
PRI
×
d
From Figure 19,
Sensitivity
=
0.72
3
V
×
100
mils
=
2.4
mV
/
V mil
d = –100 mils
d = 0
1.71V rms
0.99V rms
V
B
d = +100 mils
V
SEC
WHEN V
PRI
3V rms
V
Figure 19. LVDT Secondary Voltage vs. Core
Displacement
T hermal Shutdown and Loading Considerations
T he AD698 is protected by a thermal overload circuit. If the die
temperature reaches 165
°
C, the sine wave excitation amplitude
gradually reduces, thereby lowering the internal power dissipa-
tion and temperature.
Due to the ratiometric operation of the decoder circuit, only
small errors result from the reduction of the excitation ampli-
tude. Under these conditions the signal-processing section of
the AD698 continues to meet its output specifications.
T he thermal load depends upon the voltage and current deliv-
ered to the load as well as the power supply potentials. An
LVDT Primary will present an inductive load to the sine wave
excitation. T he phase angle between the excitation voltage and
current must also be considered, further complicating thermal
calculations.
APPLIC AT IONS
Most of the applications for the AD598 can also be imple-
mented with the AD698. Please refer to the applications written
for the AD598 for a detailed explanation.
See AD598 data sheet for:
– Proving Ring-Weigh Scale
– Synchronous Operation of Multiple LVDT s
– High Resolution Position-to-Frequency Circuit
– Low Cost Setpoint Controller
– Mechanical Follower Servo Loop
– Differential Gaging and Precision Differential Gaging
AC BRIDGE SIGNAL CONDIT IONE R
Bridge circuits which use dc excitation are often plagued by er-
rors caused by thermocouple effects, 1/f noise, dc drifts in the
electronics, and line noise pickup. One way to get around these
problems is to excite the bridge with an ac waveform, amplify
the bridge output with an ac amplifier, and synchronously de-
modulate the resulting signal. T he ac phase and amplitude in-
formation from the bridge is recovered as a dc signal at the
output of the synchronous demodulator. T he low frequency
system noise, dc drifts, and demodulator noise all get mixed to
the carrier frequency and can be removed by means of a low-
pass filter.
T he AD698 with the addition of a simple ac gain stage can be
used to implement an ac bridge. Figure 20 shows the connec-
tions for such a system. T he AD698 oscillator provides ac
excitation for the bridge. T he low level bridge signal is amplified
by the gain stage created by A1, A2 to provide a differential in-
put to the A Channel of the AD698. T he signal is then synchro-
nously detected by A Channel. T he B Channel is used to detect
the level of the bridge excitation. T he ratio of A/B is then calcu-
lated and converted to an output voltage by R2. An optional
phase lag/lead network can be added in front of the A compara-
tor to adjust for phase delays through the bridge and the ampli-
fier, or if the phase delay is small, it can be ignored or compensated
for by a gain adjustment.
T his circuit can be used for resistive bridges such as strain
gages, or for inductive or capacitive bridges that are commonly
used for pressure or flow sensors. T he low level signal outputs of
these sensors are susceptible to noise and interference and are
good candidates for ac signal processing techniques.
Component Selection
Amplifiers A1, A2 will be chosen depending on the type of
bridge that is conditioned. Capacitive bridges should use an
amplifier with low bias current; a large bleeder resistor will be
required from the amplifier inputs to ground to provide a path
for the dc bias current. Resistive and inductive bridges can use a
more general purpose amplifier. T he dc performance of A1, A2
are not as important as their ac performance. DC errors such as
voltage offset will be chopped out by the AD698 since they are
not synchronous to the carrier frequency.
T he oscillator amplitude and span resistor for the AD698 may
be chosen by first computing the transfer function or sensitivity
of the bridge and the ac amplifier. T his ratio will correspond to
the A/B term in the AD698 transfer function. For example, sup-
pose that a resistive strain gage with a sensitivity, S, of 2 mV/V
at full scale is used. Select an arbitrary target value for A/B that
is close to its maximum value such as A/B = 0.8. T hen choose a
gain for the ac amplifier so that the strain gage transfer function
from excitation to output also equals 0.8. T hus the required am-
plifier gain will be [A/B]/ S; or 0.8/ 0.002 V/V = 400. T hen
select values for R
S
and R
G
. For the gain stage:
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