rdc19220 ETC-unknow, rdc19220 Datasheet - Page 5
rdc19220
Manufacturer Part Number
rdc19220
Description
16-bit Monolithic Tracking Resolver Lvdt -to-digital Converters
Manufacturer
ETC-unknow
Datasheet
1.RDC19220.pdf
(23 pages)
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RESOLVER
er with the velocity integrator forms a type II servo feedback loop.
A lead in the frequency response is introduced to stabilize the
loop and another lag at higher frequency is introduced to reduce
the gain and ripple at the carrier frequency and above. The set-
tings of the various error processor gains and break frequencies
are done with external resistors and capacitors so that the con-
verter loop dynamics can be easily controlled by the user.
TRANSFER FUNCTION AND BODE PLOT
The dynamic performance of the converter can be determined from
its Transfer Function Block Diagrams and its Bode Plots (open and
closed loop). These are shown in FIGURES 2, 3, and 4.
The open loop transfer function is as follows:
The components of gain coefficient are error gradient, integrator
gain and VCO gain. These can be broken down as follows:
R
and bandwidth.
Data Device Corporation
www.ddc-web.com
- Error Gradient = 0.011 volts per LSB (CT + Error Amp + Demod
- Integrator Gain =
- VCO Gain =
Open Loop Transfer Function =
where: Cs = 10 pF
V
INPUT
, R
(θ)
B
, and C
Fs = 67 kHz when Rs = 30 k
Fs = 100 kHz when Rs = 20 k
Fs = 134 kHz when Rs = 15 k
C
where A is the gain coefficient and A
and B is the frequency of lead compensation.
VCO
+
FIGURE 3. TRANSFER FUNCTION
1.25 R
= 50 pF
-
CT
BW
1.1 C
e
are selected by the user to set velocity scaling
Cs Fs
1
V
BLOCK DIAGRAM #2
C
ERROR PROCESSOR
BW
VCO
S
volts per second per volt
A
1
LSBs per second per volt
10B
S
S
B
+ 1
+ 1
S
A
2
2
(
H = 1
(
10B
S
S
B
+1
+1
with 2 Vrms input)
)
)
VCO
A
S
2
2
= A
1
A
2
VELOCITY
OUT
DIGITAL
POSITION
OUT (φ)
5
GENERAL SETUP CONSIDERATIONS
Note: For detailed application and technical information see the RD/RDC convert-
er applications manual which is available for download from the DDC web site @
www.ddc-web.com.
DDC has external component selection software which consid-
ers all the criteria below, and in a simple fashion, asks the key
parameters (carrier frequency, resolution, bandwidth, and track-
ing rate) to derive the external component value.
The following recommendations should be considered when
installing the RDC-19220 Series R/D converters:
1) In setting the bandwidth (BW) and Tracking Rate (TR) (select-
2) +5 and -5 volt operation:
3) This converter has 2 internal ground planes, which reduce
ing five external components), the system requirements need
to be considered. For greatest noise immunity, select the min-
imum BW and TR the system will allow.
Power supplies are ±5 V dc. For lowest noise performance it
is recommended that a 0.1 µF or larger cap be connected
from each supply to ground near the converter package.
When using a +5V and -5V supply to power the converter,
RDC-19222 pins 22, 23, 25, 26 must be no connection, and
on RDC-19224 pins 20, 40, 16, 11, must be no connection.
Also, the 10uF cap is not connected to +cap and -cap pins.
noise to the analog input due to digital ground currents. The
resolver inputs and velocity output are referenced to AGND.
The digital outputs and inputs are referenced to GND. The
AGND and GND pins must be tied together as close to the
converter package as possible. Not shorting these pins
together as close to the converter package as possible will
cause unstable converter results.
CLOSED LOOP
OPEN LOOP
GAIN = 4
FIGURE 4. BODE PLOTS
(B = A/2)
B
A
(CRITICALLY DAMPED)
2A
2A
2 2 A
f
BW
RDC-19220 SERIES
= BW (Hz) =
10B
GAIN = 0.4
ω (rad/sec)
ω (rad/sec)
2 A
R-12/05-0
π
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