datasheetbank_Logo
Integrated circuits, Transistor, Semiconductors Search and Datasheet PDF Download Site

AD2S83 View Datasheet(PDF) - Analog Devices

Part Name
Description
View to exact match
AD2S83 Datasheet PDF : 19 Pages
1 2 3 4 5 6 7 8 9 10 Next Last
AD2S83
CONVERTER OPERATION
When connected in a circuit such as shown in Figure 10, the
AD2S83 operates as a tracking resolver-to-digital converter.
The output will automatically follow the input for speeds up to
the selected maximum tracking rate. No convert command is
necessary as the conversion is automatically initiated by each
LSB increment, or decrement, of the input. Each LSB change of
the converter initiates a BUSY pulse.
The AD2S83 is remarkably tolerant of input amplitude and
frequency variation because the conversion depends only on the
ratio of the input signals. Consequently there is no need for
accurate, stable oscillator to produce the reference signal. The
inclusion of the phase sensitive detector in the conversion loop
ensures high immunity to signals that are not phase or frequency
coherent or are in quadrature with the reference signal.
SIGNAL CONDITIONING
The amplitude of the SINE and COSINE signal inputs should
be maintained within 10% of the nominal values if full perfor-
mance is required from the velocity signal.
The digital position output is relatively insensitive to amplitude
variation. Increasing the input signal levels by more than 10%
will result in a loss in accuracy due to internal overload. Reduc-
ing levels will result in a steady decline in accuracy. With the
signal levels at 50% of the correct value, the angular error will
increase to an amount equivalent to 1.3 LSB. At this level the
repeatability will also degrade to 2 LSB and the dynamic response
will also change, since the dynamic characteristics are propor-
tional to the signal level.
The AD2S83 will not be damaged if the signal inputs are
applied to the converter without the power supplies and/or
the reference.
REFERENCE INPUT
The amplitude of the reference signal applied to the converter’s
input is not critical, but care should be taken to ensure it is kept
within the recommended operating limits.
The AD2S83 will not be damaged if the reference is supplied to
the converter without the power supplies and/or the signal
inputs.
HARMONIC DISTORTION
The amount of harmonic distortion allowable on the signal and
reference lines is 10%.
Square waveforms can be used but the input levels should be
adjusted so that the average value is 1.9 V rms. (For example, a
square wave should be 1.9 V peak.) Triangular and sawtooth
waveforms should have a amplitude of 2 V rms.
Note: The figure specified of 10% harmonic distortion is for
calibration convenience only.
POSITION OUTPUT
The resolver shaft position is represented at the converter out-
put by a natural binary parallel digital word. As the digital posi-
tion output of the converter passes through the major carries,
i.e., all “1s” to all “0s” or the inverse, a RIPPLE CLOCK (RC)
logic output is initiated indicating that a revolution or a pitch of
the input has been completed.
The direction of input rotation is indicated by the DIRECTION
(DIR) logic output. This direction data is always valid in advance
of a RIPPLE CLOCK pulse and, as it is internally latched, only
changing state (1 LSB min change in input) with a correspond-
ing change in direction.
Both the RIPPLE CLOCK pulse and the DIRECTION data
are unaffected by the application of the INHIBIT. The static
positional accuracy quoted is the worst case error that can occur
over the full operating temperature excluding the effects of
offset signals at the INTEGRATOR INPUT (which can be
trimmed out—see Figure 1), and with the following conditions:
input signal amplitudes are within 10% of the nominal; phase
shift between signal and reference is less than 10 degrees.
These operating conditions are selected primarily to establish a
repeatable acceptance test procedure which can be traced to
national standards. In practice, the AD2S83 can be used well
outside these operating conditions providing the above points
are observed.
VELOCITY SIGNAL
The tracking converter technique generates an internal signal at
the output of the integrator (INTEGRATOR OUTPUT) that is
proportional to the rate of change of the input angle. This is a
dc analog output referred to as the VELOCITY signal.
It is recommended that the velocity output be buffered.
The sense is positive for an increasing angular input and nega-
tive for decreasing angular input. The full-scale velocity output
is ± 8 V dc. The output velocity scaling and tracking rate are a
function of the resolution of the converter; this is summarized
below.
Max Tracking Nominal Scaling
Res Rate (rps)
(rps/V dc)
10
1040
12
260
14
65
16
16.25
130
32.5
8.125
2.03
(Velocity O/P = ± 8 V dc nominal)
The output velocity can be suitably scaled and used to replace a
conventional DC tachogenerator. For more detailed information
see the AD2S83 as a Silicon Tachogenerator section.
DC ERROR SIGNAL
The signal at the output of the phase sensitive detector
(DEMODULATOR OUTPUT) is the signal to be nulled by
the tracking loop and is, therefore, proportional to the error
between the input angle and the output digital angle. As the
converter is a Type 2 servo loop, the demodulator output signal
will increase if the output fails to track the input for any reason.
This is an indication that the input has exceeded the maximum
tracking rate of the converter or, due to some internal or exter-
nal malfunction, the converter is unable to reach a null. By con-
necting two external comparators, this voltage can be used as a
“built-in-test.”
REV. E
–7–
 

Share Link: 

datasheetbank.com [ Privacy Policy ] [ Request Datasheet ] [ Contact Us ]