AD698APZ

Due to market price fluctuations,if you need to purchase or consult the price.You can contact us or emial to us:   sales@allicdata.com

Full model: AD698APZ

Manufacturer: Analog Devices (ADI)

Device type: LVDT/RVDT signal conditioner

Package: PLCC-20 (Plastic Leaded Chip Carrier)

Operating voltage: ±12V ~ ±15V (dual supply)

Operating temperature: -40°C ~ +85°C (industrial grade)

Signal bandwidth: 1kHz (typical)

Excitation output frequency: 20Hz ~ 20kHz (programmable)

Excitation output voltage: 2.5V RMS (typical)

Position measurement accuracy: ±0.25% FS (full scale)

Output signal range: ±10V (differential/single-ended selectable)

Supply current: ±15mA (typical)

Non-linear error: 0.02% FS

DESCRIPTION

The AD698APZ 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 AD698APZ converts the raw LVDT output to a scaled dc signal. The device will operate with half-bridge LVDTs, LVDTs connected in the series opposed configuration (4-wire), and RVDTs. The AD698APZ contains a low distortion sine wave oscillator to drive the LVDT primary. Two synchronous demodulation channels of the AD698APZ are used to detect primary and secondary amplitude. The part divides the output of the secondary by the amplitude of the primary and multiplies by a scale factor. This eliminates scale factor errors due to drift in the amplitude of the primary drive, improving temperature performance and stability. The AD698APZ uses a unique ratiometric architecture to eliminate several of the disadvantages associated with traditional approaches to LVDT interfacing. The benefits of this new circuit are: no adjustments are necessary; temperature stability is improved; and transducer interchangeability is improved.

FEATURES

    1. Single Chip Solution, Contains Internal Oscillator and Voltage Reference

    2. No Adjustments Required

    3. Interfaces to Half-Bridge, 4-Wire LVDT

    4. DC Output Proportional to Position

    5. 20 Hz to 20 kHz Frequency Range

    6. Unipolar or Bipolar Output

    7. Will Also Decode AC Bridge Signals

    8. Outstanding Performance

        - Linearity: 0.05%

        - Output Voltage: 611 V

        - Gain Drift: 20 ppm/8C (typ)

        - Offset Drift: 5 ppm/8C (typ)

PRODUCT HIGHLIGHTS

   1. The AD698 offers a single chip solution to LVDT signal conditioning problems. All active circuits are on the monolithic chip with only passive components required to complete the conversion from mechanical position to dc voltage.

   2. The AD698 can be used with many different types of position sensors. The circuit is optimized for use with any LVDT, including half-bridge and series opposed, (4 wire) configurations. The AD698 accommodates a wide range of input and output voltages and frequencies.

   3. The 20 Hz to 20 kHz excitation frequency is determined by a single external capacitor. The AD698 provides up to 24 volts rms to differentially drive the LVDT primary, and the AD698 meets its specifications with input levels as low as 100 millivolts rms.

   4. Changes in oscillator amplitude with temperature will not affect overall circuit performance. The AD698 computes the ratio of the secondary voltage to the primary voltage to determine position and direction. No adjustments are required.

   5. Multiple LVDTs can be driven by a single AD698 either in series or parallel as long as power dissipation limits are not exceeded. The excitation output is thermally protected.

   6. The AD698 may be used as a loop integrator in the design of simple electromechanical servo loops.

   7. The sum of the transducer secondary voltages do not need to be constant.

Pin definition (PLCC-20 key pins)

Application scenarios

   1. Aerospace: flight control surface position detection

   2. Industrial automation: hydraulic cylinder displacement measurement

   3. Energy equipment: turbine vibration monitoring

   4. Scientific research instruments: precision mechanical positioning

Typical application circuit

             LVDT measurement system:

                      EXC1/EXC2 ─── LVDT primary coil

                      SIG1/SIG2 ─── LVDT secondary coil

                      OUT ──────── ADC input

                      RATIO ────── 10kΩ proportional resistor

                      FILT ─────── 1μF filter capacitor

Design considerations

   1. Sensor matching:

       - The excitation frequency should be lower than 1/3 of the LVDT resonant frequency

       - The secondary signal amplitude is recommended to be 0.5V~2V RMS

   2. PCB layout:

       - The analog ground and the power ground need to be connected in star shape

       - Sensitive signal routing is away from high-frequency noise sources

The specific data is subject to PDF, and the above content is for reference