RPR-4000
COMPUTER CONTROLLED HIGH POWER PULSER RECEIVER
The rugged new RITEC
RPR-4000 Pulser/Receiver features an 8 kW tone burst pulser at up to 1%
duty cycle, a 100 dB gain low noise receiver, a local display and keypad
for control of all functions, and an environmentally secure package with
over temperature shut-down. This remarkable instrument has been designed
to withstand severe environmental pollution and high temperatures while
providing the most powerful tone burst pulse available to the ultrasonic
testing market. The very high pulse power is especially valuable when
driving electromagnetic transducers (EMATs) which are well known for having
poor sensitivity. The front panel key pad provides control of all functions
including frequency, repetition rate, pulse width, receiver gain, receiver
input selection, and receiver filter selection. A novel feature of the
instrument is a front panel display of the peak burst voltage being generated
in the pulser. Up to ten sets of operating parameters can be saved for
future recall. The unit may also be controlled from an external computer
via the RS-232 interface. Gated-amplifier, high-power outputs are obtainable
over a frequency range in excess of one decade. Typical high-power (8kW)
frequency ranges are 0.05 to 0.5 MHz and 0.25 to 2 MHz. The high power
is particularly valuable when using electromagnetic acoustic transducers
(EMATs) and aircoupled transducers.
(SEE SPECIFICATIONS)
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RAM-5000
COMPUTER CONTROLLED ULTRASONIC SYSTEM
The RAM-5000 is a modular ultrasonic system designed to satisfy the needs of the acoustic researcher in materials science or advanced NDE. Its functionality is similar to the RAM-10000 but much of the circuitry has been redesigned for improved performance, the packaging is more robust, and care has been taken to satisfy international standards for electronic instrumentation. The RAM-5000 will also accept multiple gated amplifiers so that a wider frequency range can be covered by a single instrument.
Its purpose is to transmit RF bursts of acoustic energy into a test piece, receive signals following the burst, and manipulate and analyze these signals in various ways. Examples include the determination of acoustic attenuation, velocity, stress, material texture, and a number of other physical properties. Gated- amplifier, high-power outputs are obtainable over a frequency range far in excess of one decade. Typical high-power (5kW) frequency ranges are 0.05 to 5 MHz and 0.5 to 7 MHz. At 1kW these ranges are extended to ~5 and just under 20 MHz respectively. The high power is particularly valuable when using electromagnetic acoustic transducers (EMATs).
Various versions of
the instrument may be chosen to meet the user's specific needs. The most
popular configurations are the pulser-receiver and the full measurement
system.
(SEE SPECIFICATIONS)
RAM-5000-3C
COMPUTER CONTROLLED, MULTIPLE CHANNEL, PHASED OUTPUT, ULTRASONIC SYSTEM
The RAM-5000 is a modular ultrasonic system designed to satisfy the needs of the acoustic researcher in materials science or advanced NDE. Its functionality is similar to the RAM-10000 but much of the circuitry has been redesigned for improved performance, the packaging is more robust, and care has been taken to satisfy international standards for electronic instrumentation. The RAM-5000 will also accept multiple gated amplifiers so that a wider frequency range can be covered by a single instrument.
Its purpose is to transmit RF bursts of acoustic energy into a test piece, receive signals following the burst, and manipulate and analyze these signals in various ways. Examples include the determination of acoustic attenuation, velocity, stress, material texture, and a number of other physical properties. Gated- amplifier, high-power outputs are obtainable over a frequency range far in excess of one decade. Typical high-power (5kW) frequency ranges are 0.05 to 5 MHz and 0.5 to 7 MHz. At 1kW these ranges are extended to ~5 and just under 20 MHz respectively. The high power is particularly valuable when using electromagnetic acoustic transducers (EMATs).
Various versions of
the instrument may be chosen to meet the user's specific needs. The most
popular configurations are the pulser-receiver and the full measurement
system.
(SEE SPECIFICATIONS)
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SNAP
FOR THE STUDY OF NONLINEAR ACOUSTIC PHENOMENA
In the last few years, considerable attention has been focused on using nonlinear ultrasonic properties for the nondestructive evaluation of materials. Some examples of important applications include: metal fatigue, micro cracking, bond strength of adhesives, metal embrittlement, and properties of coatings. The RITEC SNAP incorporates a number of unique circuits designed to facilitate the determination of these properties using a variety of techniques:
- 1. Harmonic generation in the sample can be monitored as a function of the driving sound amplitude.
- 2. Acoustic resonances may be examined at high and low amplitudes.
- 3. Beam mixing at two driving frequencies can be studied using two high-power, gated amplifiers.
- 4. In some cases simple amplitude dependence may used to obtain valuable results.
Gated-amplifier, high-power
outputs are obtainable over a frequency range far in excess of one decade.
Typical high-power (5KW) frequency ranges are 0.05 to 5 MHz and 0.5 to
7 MHz. At 1KW these ranges are extended to ~5 and just under 20 MHz respectively.
In the SNAP system, however, the superheterodyne receiver may be independently
tuned up to 80 MHz without loss of phase coherency.
(SEE
SPECIFICATIONS)
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