EDR-3C & EDR-3D
Shock, Vibration & Environmental Recorders
Our portable impact, shock and vibration recorder has a built-in tri-axial accelerometer along with many other features including easy setup and use and can be battery powered for over thirty days, onboard memory and more.
Highlights:
- Measures Shock, Vibration, Temperature and humidity(opt.)
- Setup and Download via USB
- Built-in piezoresistive Tri-axial Accelerometer
- Continuous recording from minutes to hours depending on memory & sample rate
- 5,291 “event” memory capacity
- All events date/time stamped
- Patented IST Sliding Window Overwrite (SWO) memory mode
- Fully programmable sample rates, triggering, event lengths, memory modes
- Up to 6 High-Speed Accelerometer channels
- External input channel options for PE voltage mode accelerometers
- Precision Low Noise accelerometers, DC response
- Full scale g ranges from 2g to 500g
- Triggering: threshold, time-interval, time-delayed, time at level, external input, manual and networked
- Automatic Offset Correction (for DC accelerations, Bridge Balancing)
- Vibration Controller Compatibility for Field Data Replication, PSD Profiles
- Battery powered continuous recording to 30+ Days , 60+ Days with lithium C-cells
- Memory nonvolatile to 6+ months
- Pre-trigger and post-trigger programmability- never misses anything
- Extremely rugged: 500g+ shock fragility
- -40 to +70 deg C operating range
- Intrinsically Safe
- Small Size: 37 cu in, 2.2 lb.
- Powerful Windows 7/8/10 Software Included
- Easy to Set Up and Use
Description
The EDR-3C is a portable impact, shock and vibration full waveform recorder and has a built-in triaxial accelerometer that’s designed to measure shock, vibration, temperature and (as an option) humidity, pressure, or resistance-bridge devices. The programmable unit tags all acceleration events with a time and date to provide a time history of the dynamic environment experienced during a recording session.
Advanced triggering schemes allows the user to select from threshold (event amplitude based), time-interval, time-delayed, time-at-level, external input, manual, and networked (multi-unit-connected) triggering. This flexibility enables the instrument to be configured for a wide variety of dynamic recording applications.
Temperature and Humidity Recording
The EDR-3C unit also measures and records environmental temperature using a sensor built into the unit and/or an externally connected temperature sensor. Optional internal and external relative humidity sensors are available.
Auto-Zero Offset Control
The EDR-3C recorder provides automatic digital offset correction between recording events. This feature compensates for DC offset resulting from temperature variation, as well as changes in orientation.
Accelerometers
Each EDR-3C recorder is supplied with a specially designed and calibrated built-in tri-axial accelerometer. The internal accelerometers are piezo-resistive devices, offering superior low frequency response characteristics, high linearity, and extremely low power consumption. Acceleration recording can be configured for the internal tri-axial accelerometer channels and/or up to 3 optional external accelerometer inputs.
External Accelerometers
The optional external accelerometer input channels are designed for use with "low bias" versions of ICP piezoelectric voltage mode devices. External channels provide signal conditioning, filtering, and constant current excitation for use with voltage mode accelerometers.
External Input Triggering
An external bi-directional trigger channel is available as an option on all EDR-3C/3D recorder models.
Advanced Programmability
Our EDR-3 series recorders are set up for recording applications using IST's DynaMax software package. After field recording, data is transferred back to the host PC for processing and analysis. The EDR-3C is completely user-programmable for accurate recording of either (transient) shock and/or pseudo-stationary vibration data. The instrument may be set up to operate under both event (amplitude-based) and/or time (periodic) triggered recording or combinations of this and other triggering options.
Data Management
Several different data management features are available for handling large numbers of captured time histories. Fill & Stop memory mode records all frames satisfying the trigger condition sequentially in time until the digital memory within the instrument is filled. A second Overwrite memory mode option records a selectable number of events having the largest RMS levels of all events measured.
Sliding Window Overwrite Mode (SWO)
The EDR-3C and -3D recorder models offer a powerful feature called Sliding Window Overwrite (SWO) developed and patented exclusively by IST. SWO provides the advantages of overwrite mode and much more. With SWO the field test period is effectively partitioned into a user selectable number of time windows or bins. The size of the time windows is selected by the user. Event overwriting can only occur within the respective time windows.
Improved Laboratory Simulation
SWO enables the user to uniformly capture selective highest-level "time windows" of data during an extended field test. Recorded SWO can be processed with IST's DynaMax DMW-psd software module to generate a separate PSD (Power Spectral Density) for each time window, or any subset of the data desired.
Vibration Test System Compatibility
Data recording with all EDR-3C or 3D models can be processed with IST software for direct compatibility with virtually all digital vibration controllers. All data within the IST DynaMax environment can be easily exported or copied to other windows applications, or saved as a text file.
Performance History
The EDR-3C & series recorders have been used in a broad range of high-performance applications world-wide for many years. A few of the more prominent applications using the EDR-3C include:
- The recorder of choice by damage prevention professionals at most major U.S. Railroads
- Mandated by U.S. Auto Club as the "crash recorder" for all INDY race cars in the late 90s
- Selected by NASA for measuring cargo bay vibrations aboard the U.S. Space Shuttle
- Selected by NASA Prime Contractor for continuous monitoring of rail car transportation of all Shuttle Solid Rocket Motors(before fleet retirement)
- Selected by many Fortune 500 companies for use in shipment monitoring
- Selected by numerous D.O.D. contractors for ground transport monitoring of critical aerospace hardware.
- Widely used by the DOD Special Ops for parachute rapid deployment test and measurement
- In use by most major small parcel delivery service companies & customers
Certifications
The EDR-3C & 3D series recorder has several certifications allowing it to be used in many useful applications. Contact IST if you've got a specification, chances are we have equipment to meet your specs:
- Meets MIL-STD-810F, most test methods
- Potentially incendiary environments (intrinsically safety)
- Flight Qualified (MIL-STD-461 RE02)
- Manned Space Flight Qualified by NASA
Applications
The EDR-3C series recorders have been designed for applications that require remote, unattended monitoring and recording of shock and vibration data over long periods of time. Their ultra-small size and weight, combined with their extraordinary recording and programmability features make them ideal for applications where space and weight come at a premium. Since human monitoring during recording is not required, personnel cost associated with the field testing using the EDR-3C recorders can be reduced significantly. The instruments also provide a high degree of operational reliability under harsh environmental test conditions. Specific applications of the EDR-3C/3D include:
- Intermodal Transport Studies
- High-Value Transport Monitoring
- Vibration Test Spec. Development
- Launch Vehicle Vibration
- Avionics Environmental Reliability
- Concealed Monitoring
- Package Test Shipments
- Railcar Impact and Vibration
- Crash Recording
- Aircraft Flight Vibration
- Brake Testing
- Environmental Test Level Qualifications
- Amusement ride measurements
- Ground vibration monitoring
- Accident reconstruction
- In-Use Environments
- Structural Seismic Measurements