DatasheetsPDF.com

AD598

Part Number	AD598
Manufacturer	Analog Devices
Description	LVDT Signal Conditioner
Published	Mar 23, 2005
Detailed Description	a FEATURES Single Chip Solution, Contains Internal Oscillator and Voltage Reference No Adjustments Required Insensitive ...
Datasheet	AD598 PDF File

Overview

a FEATURES Single Chip Solution, Contains Internal Oscillator and Voltage Reference No Adjustments Required Insensitive to Transducer Null Voltage Insensitive to Primary to Secondary Phase Shifts DC Output Proportional to Position 20 Hz to 20 kHz Frequency Range Single or Dual Supply Operation Unipolar or Bipolar Output Will Operate a Remote LVDT at Up to 300 Feet Position Output Can Drive Up to 1000 Feet of Cable Will Also Interface to an RVDT Outstanding Performance Linearity: 0.
05% of FS max Output Voltage: ؎ 11 V min Gain Drift: 50 ppm/؇ C of FS max Offset Drift: 50 ppm/ ؇C of FS max PRODUCT DESCRIPTION EXCITATION (CARRIER) VA 11 OSC AMP LVDT Signal Conditioner AD598 FUNCTIONAL BLOCK DIAGRAM 3 2 17 A–B A+B AD598 FILTER AMP 16 VOUT LVDT 10 VB PRODUCT HIGHLIGHTS The AD598 is a complete, monolithic Linear Variable Differential Transformer (LVDT) signal conditioning subsystem.
It is used in conjunction with LVDTs to convert transducer mechanical position to a unipolar or bipolar dc voltage with a high degree of accuracy and repeatability.
All circuit functions are included on the chip.
With the addition of a few external passive components to set frequency and gain, the AD598 converts the raw LVDT secondary output to a scaled dc signal.
The device can also be used with RVDT transducers.
The AD598 contains a low distortion sine wave oscillator to drive the LVDT primary.
The LVDT secondary output consists of two sine waves that drive the AD598 directly.
The AD598 operates upon the two signals, dividing their difference by their sum, producing a scaled unipolar or bipolar dc output.
The AD598 uses a unique ratiometric architecture (patent pending) to eliminate several of the disadvantages associated with traditional approaches to LVDT interfacing.
The benefits of this new circuit are: no adjustments are necessary, transformer null voltage and primary to secondary phase shift does not affect system accuracy, temperature stability is improved, and transducer inter...

Similar Datasheet

AD500-9 Avalanche Photodiode - Silicon Sensor
AD500-9 APD - First Sensor
AD500-9-400M-TO5 APD Hybrid - First Sensor
AD5011 2 Pair/1 Pair ETSI Compatible HDSL Analog Front End - Analog Devices
AD5012N2L AC-DC / External Freestanding Adapter - Emerson
AD5012N2LM AC-DC / External Freestanding Medical Adapter - Emerson
AD5012N3L AC-DC / External Freestanding Adapter - Emerson
AD5012N3LM AC-DC / External Freestanding Medical Adapter - Emerson
AD502 Operational Amplifier - Analog Devices
AD5024 nanoDAC - Analog Devices

@ 2014 :: Datasheetspdf.com :: Semiconductors datasheet search & download site. (Privacy Policy & Contact)