AD73360 Analog Devices, AD73360 Datasheet - Page 27
AD73360
Manufacturer Part Number
AD73360
Description
6-Channel AFE Processor for General Purpose Applications Including Industrial Power Metering or Multi-Channel Analog Inputs
Manufacturer
Analog Devices
Datasheet
1.AD73360.pdf
(35 pages)
Specifications of AD73360
Resolution (bits)
16bit
# Chan
6
Sample Rate
2.05MSPS
Interface
Ser
Analog Input Type
Diff-Uni,SE-Uni
Ain Range
1.6 V p-p,3.2 V p-p
Adc Architecture
Sigma-Delta
Pkg Type
QFP,SOIC
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DSP SPORT Interrupts
If SPORT interrupts are enabled, it is important to note that the
active signals on the frame sync pins do not necessarily corre-
spond with the positions in time of where SPORT interrupts are
generated.
On ADSP-21xx processors, it is necessary to enable SPORT
interrupts and use Interrupt Service Routines (ISRs) to handle
Tx/Rx activity, while on the TMS320C5x processors it is pos-
sible to poll the status of the Rx and Tx registers, which means
that Rx/Tx activity can be monitored using a single ISR that
would ideally be the Tx ISR as the Tx interrupt will typically
occur before the Rx ISR.
APPLICATIONS EXAMPLES
Vector Motor Control
The current drawn by a motor can be split into two compo-
nents: one produces torque and the other produces magnetic
flux. For optimal performance of the motor, these two compo-
nents should be controlled independently. In conventional
methods of controlling a three-phase motor, the current (or
voltage) supplied to the motor and the frequency of the drive are
the basic control variables. However, both the torque and flux
are functions of current (or voltage) and frequency. This cou-
pling effect can reduce the performance of the motor because,
for example, if the torque is increased by increasing the fre-
quency, the flux tends to decrease.
Vector control of an ac motor involves controlling phase in
addition to drive and current frequency. Controlling the phase
of the motor requires feedback information on the position of
the rotor relative to the rotating magnetic field in the motor.
Using this information, a vector controller mathematically trans-
forms the three-phase drive currents into separate torque and
flux components. The AD73360, with its six-channel simulta-
neous sampling capability, is ideally suited for use in vector
motor control applications.
A block diagram of a vector motor control application using the
AD73360 is shown in Figure 30. The position of the field is
derived by determining the current in each phase of the motor.
V
information.
Simultaneous sampling is critical to maintain the relative phase
information between the channels. A current-sensing isolation
amplifier, transformer or Hall-effect sensor is used between the
motor and the AD73360. Rotor information is obtained by
measuring the voltage from the three inputs to the motor. V
V
tion. A DSP microprocessor is used to perform the mathematical
transformations and control loop calculations on the informa-
tion fed back by the AD73360.
REV. A
IN1
IN5
, V
and V
IN2
and V
IN6
of the AD73360 are used to obtain this informa-
IN3
of the AD73360 are used to digitize this
IN4
,
–27–
Industrial Power Metering
The AD73360 can be used to measure the voltage and current
in all three phases of a three-phase supply. The simultaneous
sampling architecture of the AD73360 is ideal for this applica-
tion where simultaneous sampling is critical to maintaining the
relative phase information between the three voltage and three
current phases. Figure 31 shows a block diagram of a three-
phase metering system. The V
used to measure the voltages in each phase (via voltage attenua-
tors). The current flowing in each phase can be detected by the
use of current-sensing isolation amplifiers, transformers or
Hall-effect sensors. V
this information. A DSP microprocessor is used to perform
the mathematical calculations on the information provided by
the AD73360.
SETPOINT
SETPOINT
TORQUE
Figure 30. Vector Motor Control Using the AD73360
FLUX
SUPPLY
MICROPROCESSOR
THREE-
PHASE
Figure 31. Three-Phase Power Metering
TRANSFORMATION
MICROPROCESSOR
TORQUE & FLUX
CONTROL LOOP
CALCULATIONS
COMPONENTS
TO TORQUE &
DSP
CURRENT
FLUX
DSP
3
2
1
IN4
, V
IN5
AD73360
IN1
and V
DAC
DAC
DAC
AD73360
, V
V
V
V
V
V
V
IN1
IN2
IN3
IN4
IN5
IN6
IN2
AMPLIFIERS
ISOLATION
IN6
V
V
V
V
V
V
CIRCUITRY
AMPLIFIERS
IN1
IN2
IN3
IN4
IN5
IN6
and V
ATTENUATORS
DRIVE
ISOLATION
are used to digitize
VOLTAGE
ATTENUATORS
VOLTAGE
IN3
I
AD73360
A
I
I
C
B
I
A
I
I
channels are
C
B
V
V
A
V
B
V
C
V
A
V
B
C
THREE-
MOTOR
PHASE
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