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–2–
PRINTED IN U.S.A. E1913–12–5/94
A Hardware Approach
The circuit of Figure 2 provides a linear temperature com-
pensation for the ADXL50. Figure 3 shows the 0 g drift
over temperature for a typical ADXL50 with and without
this circuit. As shown by Figure 3, the linear portion of the
drift curve has been subtracted out. In effect, the curve
has been rotated counter clockwise until it is horizontal,
leaving just the bow of the curve: that portion which is not
linear.
As shown in Figure 3, over a +25 °C to +70°C range, a 10 ×
reduction in drift is achieved. The circuit of Figure 2 is es-
sentially a temperature sensor coupled to a forced-
balance bridge. The AD590 provides a 1 µA/°K current
output whose voltage scale factor is set by resistor RA.
The bridge circuit subtracts out the nominal 298 mV out-
put of the AD590 at +25 °C and leaves only the change in
temperature, which is what is needed.
Resistors R5 and R6 form a resistor divider (one half of the
bridge) which divides down the +3.4 V reference output of
the ADXL50 to 0.3 V which appears at the noninverting
input of the AD820 op amp. Resistors R7 and R8 form the
other half of the bridge, and because they have the same
ratio as R5 and R6 the op amp will have a +3.4 V output at
room temperature. Therefore, the op amp is across the
output of the bridge and any imbalance will cause its out-
put to change enough to maintain the summing junction
at 0.3 V, which keeps the bridge in balance.
Figure 2. ADXL50 0 g Drift Compensation Circuit
Figure 3. ADXL50 0 g Drift With & Without the Compen-
sation Circuit of Figure 2
The output from the AD590 connects to the wiper of trim
potentiometer R B. Since RB is across the input terminals
of the op amp, the circuit can provide a variable output
with temperature in either the positive or negative direc-
tion. The op amp output is divided down by resistors R9
and R10 which limit the range of trim potentiometer RC
and increase its resolution. Resistors R1 and R3 set the
ADXL50 accelerometer's gain at ten (190 mV/g) which is
appropriate at low g levels, while R2 and R3 set the gain of
the compensation circuit.
ADXL50
0.022µF
C2 4
TEMPCO
AMPLIFIER
TC
COMP
SET
+5V
1µA/°K
RB
10kΩ
BRIDGE
BALANCE
0g OUTPUT
LEVEL
3
26
+5V
7
4
0.1µF
TEMPERATURE
COMPENSATED
ACCELERATION
OUTPUT
CALIBRATION PROCEDURE:
AT T
MIN
OR LOWER TEMP CAL. POINT:
1. SET RB ALL THE WAY TO ONE SIDE.
2. A DJUST RA FOR +3.4V AT
TEST POINT “A.”
3. SET RC FOR +2.5V V
OUT
(AT PIN 9 OF ADXL50).
TO TEST THE CIRCUIT:
4. TEMORARILY CONNECT A 1.5kΩ
RESISTOR BETWEEN THE WIPER
OF RB AND COMMON.
5. A DJUST RB FOR +2.5V AT V
OUT
.
6. REMOVE TH E 1.5kΩ RESISTOR .
V
OUT
SHOULD NOT CHANGE .
AT T
MAX
OR UPPER TEMP CAL. POINT:
7. GO TO T
MAX
OR HIGH TEMP CAL. POINT.
8. READJUST RB FOR +2.5V @ V
OUT.
9. CALIBRATION COMPLETE.
BUFFER
AMP
ADXL50
PRE-AMP
0.022µF
C1
C1
0.022µF
C2
COM
0.1µF
C3
+5V
V
OUT
V
IN–
V
PR
+3.4V
REF
R5
310kΩ
1.8V
2
3
41
5
6
9
10
R7
310kΩ
R6
30kΩR8
30kΩ
R4
500Ω
RA
1kΩ
R9
20kΩ
RC
20kΩR10
25kΩ
R2
49.9kΩ
8
AD590
R3
499kΩ
R1
49.9kΩ
TEMP
REFERENCE
AD820
TEST
POINT
“A”