IST MotionMaster -- EDR-6DOF-2-1200

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IST MotionMaster -- EDR-6DOF-2-1200
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1 IST

Instrumented Sensor Technology (IST) has developed a product line covering a dozen different digital data recorder models. The self-contained recorders contain inertial sensors and gyroscopes.

IST designs, develops, and manufactures digital data recording technology.

Table 1: Applications as Advertised by IST
Packaging Industrial Aerospace Defense

Design and Verification

Floor and ground vibration measurements

Transport monitoring of satellites, missiles, and subassemblies

Flight testing

Distribution environment studies

Monitoring of inter-plant transport

Flight testing

Ordance transport and handling

Design your own test procedures

Whole-body vibration measurements

Advanced engineering tests

Proving ground testing

Damage boundary curve determination

Stand-alone strain recorders

Gunfire measurements

Shock response studies

Machine tool crash measurement

Parachute testing

Drop height recorder

Preventive maintenance

Ship shock

Shock indicators for freight claims and damage prevention

Compression recording systems

Temperature and humidity monitoring

Please feel free to include your experiences with IST products as signed edits to this article.

1.1 Motion Master Product Line

The Motion Master product line is a 6 degree of freedom (DOF) sensor with 3 angular rate gyroscopes and 3 linear accelerometers. The angular rate sensors appear to be MEMs gyros with a vibrating proof mass. The linear accelerometers are piezo technology.

The rate gyros of the Motion Master line have bandwidths of 40 Hz with angular rate saturation points ranging from 1200 to 150 deg/sec (21 to 2.6 rad/sec). The accelerometers are rated from 2 to 500 g with bandwidths ranging from 250 to 2400 Hz.

2 MotionMaster -- EDR-6DOF-2-1200

2.1 Performance Data

Table 1: MotionMaster -- EDR-6DOF-2-1200 Performance Specifications
Rate BW (Hz) Acceleration BW (Hz) Rate Saturation (deg/sec) Acceleration Saturation

40

0 to 250

1200

2

Accelerometer Sensor with BW of 0 to 250 Hz
Rate Sensor with BW of 40 Hz


2.2 Environmental Data

Table 2: MotionMaster -- EDR-6DOF-2-1200 Environmental Specifications
Rated Angular Rates (deg/sec) Rated Linear Acceleration (+/-g) Linear Acceleration Technology Operating Temperature (F)

1200.00

2.00

Piezoelectric, Piezoresistive

-40 to 158


2.3 Data for Sensors similar to the MotionMaster -- EDR-6DOF-2-1200

Table 3: MotionMaster -- EDR-6DOF-2-1200 - Similar Sensors
Product Name Rated Angular Rates (deg/sec) Rated Linear Acceleration (+/-g) Rate BW (Hz) Acceleration BW (Hz) Maximum Dimension (in) Weight (lb)

MotionMaster -- EDR-6DOF-2-1200

1200.00

2.00

40.00

0 to 250

4.40

2.50

MotionMaster -- EDR-6DOF-100-1200

1200.00

100.00

40.00

0 to 2400

4.40

2.50

MotionMaster -- EDR-6DOF-50-300

300.00

50.00

40.00

0 to 1000

4.40

2.50

MotionMaster -- EDR-6DOF-500-600

600.00

500.00

40.00

0 to 1500

4.40

2.50

MotionMaster -- EDR-6DOF-200-600

600.00

200.00

40.00

0 to 400

4.40

2.50

MotionMaster -- EDR-6DOF-5-150

150.00

5.00

40.00

0 to 600

4.40

2.50

MotionMaster -- EDR-6DOF-500-1200

1200.00

500.00

40.00

0 to 1500

4.40

2.50

MotionMaster -- EDR-6DOF-200-300

300.00

200.00

40.00

0 to 400

4.40

2.50

MotionMaster -- EDR-6DOF-20-300

300.00

20.00

40.00

0 to 300

4.40

2.50

MotionMaster -- EDR-6DOF-100-150

150.00

100.00

40.00

0 to 2400

4.40

2.50

MotionMaster -- EDR-6DOF-200-150

1200.00

200.00

40.00

0 to 400

4.40

2.50

MotionMaster -- EDR-6DOF-10-600

600.00

10.00

40.00

0 to 2000

4.40

2.50

MotionMaster -- EDR-6DOF-100-600

600.00

100.00

40.00

0 to 2400

4.40

2.50

MotionMaster -- EDR-6DOF-10-300

300.00

10.00

40.00

0 to 2000

4.40

2.50

MotionMaster -- EDR-6DOF-20-150

150.00

20.00

40.00

0 to 300

4.40

2.50

MotionMaster -- EDR-6DOF-20-600

600.00

20.00

40.00

0 to 300

4.40

2.50

MotionMaster -- EDR-6DOF-50-600

600.00

50.00

40.00

0 to 1000

4.40

2.50

MotionMaster -- EDR-6DOF-2-300

300.00

2.00

40.00

0 to 250

4.40

2.50

MotionMaster -- EDR-6DOF-10-150

150.00

10.00

40.00

0 to 2000

4.40

2.50

MotionMaster -- EDR-6DOF-5-1200

1200.00

5.00

40.00

0 to 600

4.40

2.50

MotionMaster -- EDR-6DOF-20-1200

1200.00

20.00

40.00

0 to 300

4.40

2.50

MotionMaster -- EDR-6DOF-2-600

600.00

2.00

40.00

0 to 250

4.40

2.50

MotionMaster -- EDR-6DOF-5-300

300.00

5.00

40.00

0 to 600

4.40

2.50

MotionMaster -- EDR-6DOF-500-150

150.00

500.00

40.00

0 to 1500

4.40

2.50

MotionMaster -- EDR-6DOF-2-1200

1200.00

2.00

40.00

0 to 250

4.40

2.50

MotionMaster -- EDR-6DOF-200-150

150.00

200.00

40.00

0 to 400

4.40

2.50

MotionMaster -- EDR-6DOF-2-150

150.00

2.00

40.00

0 to 250

4.40

2.50

MotionMaster -- EDR-6DOF-5-600

600.00

5.00

40.00

0 to 600

4.40

2.50

MotionMaster -- EDR-6DOF-50-150

150.00

50.00

40.00

0 to 1000

4.40

2.50

MotionMaster -- EDR-6DOF-50-150

1200.00

50.00

40.00

0 to 1000

4.40

2.50

MotionMaster -- EDR-6DOF-10-1200

1200.00

10.00

40.00

0 to 2000

4.40

2.50

MotionMaster -- EDR-6DOF-100-300

300.00

100.00

40.00

0 to 2400

4.40

2.50

MotionMaster -- EDR-6DOF-500-300

300.00

500.00

40.00

0 to 1500

4.40

2.50


3 Generic Sensor Model

Basic Sensor Model

For proposals and early design phases the sensor is best modeled with a simple linear approach. In later design phases where the nonlinear aspects of the sensor response cna be modeled. This is frequently unnecessary unless the limits of your sensors and controllers are being pushed.

The simple model starts with a transfer function that represents the frequency response of the sensor. In addition to the frequency response of the sensor noise is modeled (simple band-limited white noise or PSD derived time history noise). Sensors are usually designed (and electronics or software added) to provide a linear response.

3.1 Sensor Noise

Generic Random Noise Model

Most vendors provide noise measured on the sensor's output. (Be careful some vendors provide noise on the sensor input.) Noise will limit system performance. Noise passes straight through your control system to your output.

3.2 Nonlinear Models

Nonlinear models of sensors typically include Quantization effects and hard nonlinearities from software. Software thresholds can cause abrupt step changes to the output or to a control signal; these are what I am calling hard nonlinearities. Obviously these hard nonlinear steps can cause abrupt transient errors in the system. The abrupt steps will cause transients which need to settle before the system perofrmance will return to the expected behavior.

Nonlinear models are typically much more difficult to model. Validation is even more difficult and time consuming. Save these for later development stages where lots of test data can be taken and you have weeks or months to really dive into the data.



4 Possibly Stale Data Disclaimer

This data was collected in Sept. and Oct. of 2008. As time progresses this data may become obsolete or stale.

Please be careful how you use this data. It may be useful in an educational sense but system design decisions should be made using the manufactuerer's website only.

4.1 Data Quality Disclaimer

I've collected this data from various websites including sites that are not the manufactuerer's.

Use the data for reference only and double check the performance parameters before making any vital decisions.