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Technology
™
VXI
Acquisition
Online at vxitech.com
949 • 955 • 1VXI
210
Acquisition
Algorithmic Closed Loop Controller and
Remote Channel Multifunction DAC
VT1415A/1422A
The VT1422A Remote Channel Multi-Function DAC Module
supports the VT1539A Remote Channel Signal Conditioning
Plug-on and the VT1529B Remote Strain Signal Conditioning
Unit to form a high-performance, but economical strain
measurement system.
The VT1422A serves as the controller in this system,
managing all the configuration, calibration, triggering of
measurements, EU conversion, and calibration processes.
The main differences between the VT1415A and VT1422A
are:
• The VT1422A has 40 kB of memory available for user
algorithms; the VT1415A has 48 kB.
• If the only thing being done in an application is collection
of strain data, the VT1422A user doesn’t have to write an
algorithm, as for the VT1415A.
• The VT1422A offers the same two Terminal Blocks as does
the VT1415A.
(Option 011 screw terminals and Option 013 spring clamp)
Automated Calibration for Better Measurements
The VT1415A and VT1422A offer superior calibration
capabilities that provide more accurate measurements.
Periodic calibration of the module’s measurement inputs
is accomplished by connecting an external voltage
measurement standard (such as a highly accurate
multimeter) to the inputs of the module. This external
standard first calibrates the on-board calibration source.
Then built-in calibration routines use the on-board calibration
source and on-board switching to calibrate the entire signal
path from the closed loop controller’s input, through the
signal conditioning plug-ons (SCPs) and FET MUX, to the
A/D itself. Subsequent daily or short-term calibrations of
this same signal path can be quickly and automatically
done using the internal calibration source to eliminate
errors introduced by the signal path through the SCPs and
FET MUX or by ambient temperature changes. All input
channels can be quickly and productively calibrated to assure
continued high-accuracy measurements.
In addition to the calibration of the signal paths within the
modules, the VT1415A and VT1422A allow you to perform
a “Tare Cal” to reduce the effects of voltage offsets and IR
voltage drops in your signal wiring that is external to the
module. The Tare Cal uses an on-board D/A to eliminate these
voltage offsets. By placing a short circuit across the signal
or transducer being measured, the residual offset can be
automatically measured and eliminated by the D/A. Tare Cal
should not be used to eliminate the thermoelectric voltage of
thermocouple wire on thermocouple channels.
Flexibility with Deterministic Control
The VT1415A and VT1422A are digital sampling closed loop
control systems that are complete in a single VXI module. All
signal conditioning, process monitoring, control calculations,
and control signals are handled on-board without the need
for computer supervision. Once setup is done, the module is
essentially free-running.
The inputs are updated at the beginning of each cycle and the
outputs are updated at a later deterministic time in the cycle
so that various paths in the control algorithm do not affect
the loop timing. These steps are executed automatically and
deterministically without need for intervention from a system
computer.
Other Features
Digital Sampling Closed Loop Control System
The VT1415A/VT1422A combine flexibility with deterministic
control. Control algorithms for each of the loops can be the
default PID calculation or a user-defined, downloaded, custom
algorithm. The loop update rate is deterministically controlled
by an internal clock so that variations in the algorithm
execution times do not affect the loop cycle time.
Powerful Control Capability
The control algorithm for each loop is easily developed by the
user from a list of algebraic expressions and flow constructs
such as IF, THEN, ELSE. Tuning is simplified because all of
the constants in the algorithm as well as the algorithm itself
can be updated on-the-fly. New values are double-buffered
so there is no need to stop scanning the inputs or halt the
algorithm execution.
Digital Sampling Closed Loop System
VX
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Signal
Cond.
Signal
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Engr. Unit
Conversion
Control
Algorithm
Execution
A24
Double
Buffered
Memory
FIFO
CVT
Buffers
40 MHz
DSP
Input
Output
Содержание VT1422A
Страница 2: ...This page is blank...
Страница 8: ...8 Notes...
Страница 22: ...22 Support...
Страница 57: ...Field Wiring 57 Chapter 2...
Страница 58: ...58 Field Wiring Chapter 2...
Страница 96: ...94 Programming the VT1422A VT1529A B for Remote Strain Measurement Chapter 3...
Страница 162: ...160 Programming the VT1422A for Data Acquisition and Control Chapter 4...
Страница 224: ...222 Creating and Running Algorithms Chapter 6...
Страница 419: ...VT1422A Command Reference 417 Chapter 7 Notes...
Страница 420: ...418 VT1422A Command Reference Chapter 7 Notes...
Страница 425: ...Specifications 423 Appendix A Thermocouple Type E 200 800 C SCPs VT1501 02 03A...
Страница 426: ...424 Specifications Appendix A Thermocouple Type E 200 800 C SCPs VT1508 09A...
Страница 427: ...Specifications 425 Appendix A Thermocouple Type E 0 800 C SCPs VT1501A 02A 03A...
Страница 428: ...426 Specifications Appendix A Thermocouple Type E 0 800 C SCPs VT1508A 09A...
Страница 429: ...Specifications 427 Appendix A Thermocouple Type E Extended SCPs VT1501A 02A 03A...
Страница 430: ...428 Specifications Appendix A Thermocouple Type E Extended SCPs VT1508A 09A...
Страница 431: ...Specifications 429 Appendix A Thermocouple Type J SCPs VT1501A 02A 03A...
Страница 432: ...430 Specifications Appendix A Thermocouple Type J SCPs VT1508A 09A...
Страница 433: ...Specifications 431 Appendix A Thermocouple Type K SCPs VT1501A 02A 03A...
Страница 434: ...432 Specifications Appendix A Thermocouple Type R SCPs VT1501A 02A 03A...
Страница 435: ...Specifications 433 Appendix A Thermocouple Type R SCPs VT1508A 09A...
Страница 436: ...434 Specifications Appendix A Thermocouple Type S SCPs VT1501A 02A 03A...
Страница 437: ...Specifications 435 Appendix A Thermocouple Type S SCPs VT1508A 09A...
Страница 438: ...436 Specifications Appendix A Thermocouple Type T SCPs VT1501A 02A 03A...
Страница 439: ...Specifications 437 Appendix A Thermocouple Type T SCPs VT1508A 09A...
Страница 440: ...438 Specifications Appendix A 5k Thermistor Reference SCPs VT1501A 02A 03A...
Страница 441: ...Specifications 439 Appendix A 5k Thermistor Reference SCPs VT1508A 09A...
Страница 442: ...440 Specifications Appendix A RTD Reference SCPs VT1501A 02A 03A...
Страница 443: ...Specifications 441 Appendix A RTD SCPs VT1501A 02A 03A...
Страница 444: ...442 Specifications Appendix A RTD SCPs VT1508A 09A...
Страница 445: ...Specifications 443 Appendix A 2250 Thermistor SCPs VT1501A 02A 03A...
Страница 446: ...444 Specifications Appendix A 2250 Thermistor SCPs VT1508A 09A...
Страница 447: ...Specifications 445 Appendix A 5k Thermistor SCPs VT1501A 02A 03A...
Страница 448: ...446 Specifications Appendix A 5k Thermistor SCPs VT1508A 09A...
Страница 449: ...Specifications 447 Appendix A 10k Thermistor SCPs VT1501A 02A 03A...
Страница 450: ...448 Specifications Appendix A 10k Thermistor SCPs VT1508A 09A...
Страница 454: ...452 Specifications Appendix A...
Страница 480: ...478 VT1529A B Verification Calibration Appendix C...
Страница 484: ...482 Glossary Appendix D Notes...