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CMC 356
"The workhorse" - The CMC 356 is designed to optimally cover the modern requirements for commissioning and maintaining substations and protection devices. Its specifications cover applications in generation (including distributed generation), transmission, distribution, industry and railways - in high, medium and low voltage levels.
CMC 256plus
"The reference" - The CMC 256plus is the universal solution for testing old and new generations of relays and calibrating all kinds of meters, power quality devices and transducers. It is the first choice for all applications requiring the highest versatility and accuracy. The CMC 256plus supersedes the well-known CMC 256-6 test set.
CMC 156
The compact solution for three-phase testing of relays, meters and transducers, weighing only 9.8 kg / 22 lb. Ideal for applications requiring a high degree of portability (routine testing, etc.). |
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The Aeroflex 3500 combines many features of a benchtop radio test set with the features of a Frequency Domain Reflectometer (FDR) into a lightweight, rugged and portable platform. The 3500 is perfect for testing AM and FM radio transceivers, whether on a bench, installed in a vehicle, or in some remote location.
Aeroflex's 3500 Hand-held Radio Test Set has an RF spectrum analyzer option, permitting users to see the frequency spectrum of the signal they are measuring.
The 3500 Radio Test Set allows the user to measure and graphically display return loss and cable loss. These measurements are in addition to the VSWR and distance to fault (DTF) measurements. With these four measurements, a complete analysis can be done on the cabling and antenna of a radio system.
A DCS generator and AF Counter have been added to the radio testing capabilities of the 3500.
Designed for portable operation, the 3500 is ideal for performing radio installation testing. By utilizing over the air testing techniques, a radio installed in a vehicle can be tested without direct connection. A handset is included, aiding voice quality measurements of the transmitter and receiver.
The 3500 provides the capability to go past simple go/no go testing. The transmitter and receiver test screens include meters to measure transmitter parameters such as power, frequency and modulation. The receiver test screen includes meters to measure receiver sensitivity (SINAD) and audio distortion. The 3500 even includes two audio generators that can be used either at baseband or to modulate the transmitter. Such features combine to make the 3500 a complete radio test set for FM and AM radio transceivers. |
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Aeroflex has an exclusive new option for the Aeroflex 3900 Series Digital Radio Test Set to support P25 Trunking. Designed to support the needs of basic P25 testing and the complex analysis of advanced P25 systems, the 3900 Series features powerful analysis tools with an easy to use graphics interface. The new P25 Trunking Option (option 201) supports trunking operation in the VHF/UHF/700 MHz and 800 MHz bands. Exclusive features include the ability to simultaneously generate a control channel and traffic channel with duplex offset capability to go from 1 MHz to 2.7 GHz. With the 3900 Series, operators with radios on P25 systems can rest assured their radios are in proper working order, providing the critical interoperability needed for today’s communications.
Building upon a long-standing reputation for excellence in professional radio communication test, the 3920 from Aeroflex sets a new benchmark for quality, ease of use, performance and value.
The instrument is a platform onto which software options expand the measurement and signaling capabilities for communications systems that utilize advanced digital modulation and protocols. It does this while retaining the capability to test many current-generation analog AM and FM radio systems.
The all-new digital architecture of the 3920 not only delivers faster, more accurate measurements, thereby lowering the cost of test when compared to any of its contemporaries and predecessors, but also ensures that future market needs can be met in a timely fashion. The future of professional mobile radio is changing rapidly as technology advances and market needs expand. The 3920 is a platform that will stand the test of time! |
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The IFR 6000 is a compact, lightweight and weatherproof unit designed for testing MODE A/C/S transponder, DME, TCAS, ADS-B and TIS avionics systems.
IFR 6000 features include:
• Mode S level 1-4 (level automatically determined), FAR Part 43 appendix F (including proposed Eurocontrol extension), Eurocontrol Elementary and Enhanced Surveillance.
• ADS-B TX/RX .
• TIS.
• ICAO Annex 10 amendment 77.
• Accurate measurement of transponder transmitting frequency, power and receiver sensitivity.
• Predetermined configurations for testing any class of transponder.
• Ability to test any DME 1 MHz spaced X or Y channel. Measurements include: interrogator transmitter frequency/peak power, Pulse Repetition Frequency (PRF), P1/P2 width and pulse spacing.
• Accurate range and velocity simulation, station ident, squitter control.
• Simulation of the airborne environment, allowing verification/certification of proper operation of an aircraft’s TCAS I and II installations.
• Detachable directional antenna.
• Large 5.7-inch LCD display.
• Simple user interface.
• Lightweight at less than 8 lbs. |
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The purpose of power system protection devices is to recognize system faults quickly and reliably and to minimize impairments to the power supply by selectively switching off faulted sections of the power system.
The use of well-chosen protection devices which operate safely and reliably can have a decisive effect on the operational safety of complex electrical networks and plants.
The extent to which the reliability of protection devices can meet expectations depends initially on correct device selection and on the quality of the manufacturer's production process and final test and inspection procedures.
However, only regular testing of protection devices by the user can guarantee that they function correctly throughout their operational life.
These functional tests include the detailed examination of the characteristics configured and the functions used in order to check and, if necessary, restore the availability of the protection devices. |
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The multiple protection functions of today%u2019s protection relays requires a new level of sophisticated test hardware and software to completely analyze the operation of the unit in a %u201Creal life%u201D situation. Every facet of relay testing can be handled with the comprehensive line of relay test equipment from Megger.
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SVERKER 750/760 features many functions that make relay testing more efficient. For example, its powerful measurement section can display (in addition to time, voltage and current) Z, R, X, S, P, Q, phase angle and cos ö. All values are presented on a single easy-to-read display.
This is the engineer's toolbox. |
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The 5800 Series Multi-Configuration Multi-Functional Test System offers:
• Combinational test platform.
• Three body styles: floor standing, benchtop or rack mounted.
• 21 slot PXI based backplane.
• 19 slots available for instrument cards.
• Automatic program generation software.
• Up to 3456 analog in-circuit test points.
• Separate user and personality power supplies.
The 5800 Series is designed to meet the ever-changing needs of today's fast evolving PCB manufacturing environment. Building on Aeroflex's long history of producing functional and in-circuit test machines, the 5800 combines both methodologies. The addition of PXI further increases the flexibility of this series of machines by enabling the user to implement solutions using not only Aeroflex PXI cards, but also cards from any PXI manufacturer. |
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| IPTE develops test equipment, test handlers and turn-key solutions for the automation of testing and adjustments of PCB's and electronic products |
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ATE QT2256-320PXI system is designed as a Combination Board Tester capable of testing highly complex and dense PCBs employing various test techniques on a single platform.
It can perform Board Level Functional Test through edge connectors of a PCB, and guided probe diagnostics utility to reliably repair Digital/Analog and Mixed Signal PCBs of various complexities for conventional PCBs.
It is an In-Circuit Device / cluster tester when High Current Pin Driver options are installed and interfaced to the UUT either through clips / probes or nail bed. Standard configuration is 64 Channels high current Pin Drivers.
It has in-built 20MHz 12bit Analog Driver / sensors synchronized with digital drivers for covering analog / mixed signal devices.
Integrated Boundary Scan Test controller (Up to 4 Chains) and software package can be used to test today’s PCBs with high density / high pin count devices. Uses latest technology Boundary Scan hardware with RAM based drivers / sensors in synchronization with ATE digital and analog pin drivers.
To effectively test CPU based boards without excluding the CPU from the test, the system offers optional Qmax patented Bus Cycle Signature System. |
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The functional testers with AC timing that has been dominating the market cost in excess of USD300K upwards. The cost of maintaining such a tester is also exorbitant. Ultimately, this increase the final cost of the product.
Qmax latest innovative product, the "No Foot- print" QT2216 Full Functional mixed signal tester is designed to help the semiconductor companies doing final test be more competitive in the following ways:
1. Much lower cost of test equipment
2. No Foot Print means less space needed on test floors
3. Lower maintenance cost
The advantage of the QT2216 is its adaptability. It can be loaded with different modules to alter its configuration for different tests. It can be configured to test ADC including sigma delta type, DAC, digital, opto, linear, high voltage / current devices etc.
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| SIM-Small Instrumentation Modules-is a compact test and measurement platform for a wide range of applications. Unlike other modular systems, SIM offers complete front-panel as well as remote operation, allowing you to choose between manual and computer control. Up to eight instruments share the same mainframe which provides power, clock synchronization, communications, and module status. For additional versatility, you can cascade mainframes or other RS-232 instruments, and even operate modules outside the mainframe. |
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PRESENTATION
ANGULAR PULSE CONVERTER
The APC (Angular Pulse
Converter) generates the
synchronization signals that are
typically found on the different
components of a motor.
It also provides the necessary
signals for the measurement
devices of an injection test bench
(EFS8244, EFS8246…).
APC
ADVANTAGES
• Wide range of generated signals
• Fully programmable output signals
• Digital phase loop allowing an extended range of the conversion ratio
PRINCIPAL FUNCTIONS
OPERATING PRINCIPLE
From external angular encoder signals (or from its internal clock), the APC generates
synchronization signals according to user parameters.
• Digital phase loop on the input converter
• Programmable divisions of the input signal frequency
• Generation of motor synchronization signals: crank, cam ...
• Emulation of incremental converter signals
• Independent mode for the internal clock
SOFTWARE
winAPC is the configuration software for the APC module. This
software runs under Windows98, Windows2000, WindowsXP
and uses an RS232 connection. |
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Fault coverage and return on investment, two major factors affecting the choice of a test system in today's competitive markets.
Combine these with the flexibility to adapt as technology advances and you have the blueprint for the most desirable test system on the market.
From board to program - the solution
PinPoint II 14 slot, has been engineered to meet these criteria. It is the fastest, most economical functional test workstation available, giving the best return on investment in the industry whether configured for diagnostics or functional test.
PinPoint II has, in its high specification and modular design, the stride and flexibility to keep one step ahead of the fast evolving electronics market. It is equally well suited to `one-offs' as it is to production quantities and the combination of test technologies within the one powerful environment provides the key to the diverse range of applications the system is suited to. In-circuit functional test of both analog and digital components, edge card functional, VI analysis, boundary scan, PXI test and schematic reverse engineering can all be included in the same test platform. Flexibility extends further into the interfacing of the tester to the unit under test. The PinPoint II has been developed to adapt to the needs of the customer - clips, probes, edge connectors and bed-of-nails fixtures can all be used. |
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Providing SPEED, ACCURACY and MODULARITY
Supported Standards
* GSM / GPRS / EGPRS
* WCDMA / HSDPA / HSUPA
* Bluetooth®
* AMPS
* TDMA (IS-136)
* CDMA2000® 1xRTT
* CDMA2000® 1xEV-DO
he R&S®CMU300 Universal Radio Communication Tester is a unique solution that combines high-speed, high-accuracy RF parametric testing with layer 1 signaling procedures.
Highlights
* Extremely high-speed testing
* Highly accurate measurements
* Modular future-proof design
* Comprehensive spectrum analyzer and signal generator
* Layer 1 realtime processing
Supported Standards
* GSM
* GPRS
* EGPRS
* 3GPP FDD incl. HSDPA |
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The GX1110 is a high performance, single-channel PXI arbitrary waveform generator that offers function generator and arbitrary waveform generator functionality within one instrument. Built-in waveforms are available for use with both the DDS or AWG modes of operation and include Sine, Triangle, Ramp, Noise, Gaussian pulse and Sinx/x. A flexible sequencer is also available as part of the AWG's architecture, supporting the generation of complex waveforms.
The GX1200/1201 is a single-channel PXI-based Arbitrary Waveform Generator. The GX1200/1201 is a high performance waveform generator that combines many powerful functions in one small package.
The GX1200/1201 is a single-channel PXI-based Arbitrary Waveform Generator. The GX1200/1201 is a high performance waveform generator that combines many powerful functions in one small package.
The GC1300 is a single-channel PCI-based Arbitrary Waveform Generator. It is a high performance waveform generator that combines many powerful functions in one small package. Supplied free with the instrument is Arbconnection software, which is used for controlling the GC1300 and for generating, editing and downloading waveforms from a remote computer.
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The GP1616H function generator is a programmable instrument capable of generating predefined Sine, Square, Triangle, Ramp, Haversine, Haver triangle and Pulse waveforms as well as a programmable DC output. The firmware is customized to be fully compatible with the Hewlett Packard 8116A GPIB command set. Software test procedures using the original HP8116A instrument require no code modification when upgrading to the GP1616H.
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Dual Channel, 20MHz Oscilloscope with True RMS DMM
Features:
20 MHz Bandwidth
Capture signals from AC/DC drive motors, sensors, actuators, line and control voltages, UPS and industrial machines.
Trend Mode
Graph readings over a predetermined time period to check for surges or dropouts.
Dual Input
View two waveforms on the display for comparison and troubleshooting.
True RMS DMM
Measure AC/DC volts up to 600V, frequency to 20 MHz, and resistance to 20 Meg ohm. Obtain accurate measurements of non-sinusoidal AC voltage and current waveforms found in controls and circuits with True RMS.
Real Time Sample Rate
Capture spikes and dropouts of industrial signals with real time sampling of 25 megasamples per second.
Bright LCD Backlight
Adjust brightness levels for clarity in any light condition.
Optically Isolated RS232 Output
Transfer data safely without a direct connection to your computer’s circuitry.
Continuous Autoset
Feature automatically determines the correct vertical and horizontal settings for optimum waveform viewing. Autoset provides hands free operation while moving between test points. |
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The GP1550 series features:
- pulse widths from 10nS to 10S
- delays from 0nS to 10S with up to 6-digits resolution.
- Output levels are from -10V to +10V, with pulse amplitudes from 0.5V to 10Vp-p into a 50 Ohm load.
The GP1612H features:
- variable pulse widths from 10 ns to 10 s,
- delays from 0 ns to 10 s with up to 6 digits resolution
- adjustable output levels from -8V to +8V, with pulse amplitudes from .1V to 16Vp-p into 50 ohms load (.2V to 32Vp-p into open circuit).
These Pulse Generators also feature selectable complementary pulse and double pulse, in continuous, triggered, gated and counted burst modes.
They allow selection of predefined amplitude and offset for critical stimulus and testing of major semiconductor technologies as TTL, CMOS and ECL.
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The DDS3-PC is a 12 MHz synthesizer that comes in PC card format and uses direct digital synthesis to produce low-noise sinusoidal signals. The DDS3-PC series produces simultaneous sine and clock signals (ACMOS/TTL) that can be set from 2 Hz to 12 MHz in 2 Hz steps. The DDS3-PCs are fast instruments that allow the frequency to be changed in approximately 1 ms to 10 ms. (Frequency switching time is limited only by ISA bus speed). The user can automatically sweep through a set of frequency, attenuation, and dwell time settings.
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The GTX22x0 family of universal time interval counters provides all the features of stand-alone counters in PXI form factor. There are three versions of the PXI counters, GTX2210, GTX2220 and GTX2230. The GTX2210 support frequency range up to 225MHz, the GTX2220 to 1.3GHz and the GTX2230 covers frequencies up to 2GHz.
The GTX22x0 series counters have two signal input channels via BNC connectors, an external timebase, arm input, and a gate signal output. The separate input signals can be used for Arming and Gating the circuitry, and controlling the timing of the analysis (start/stop duration) for more meaningful measurements.
The GTX22x0 series counters are universal in that they provide many measurement functions of other frequency counters, including frequency, period, and time interval. The GTX22x0 series also have event counting and timing functions over a single channel, such as totalize and ratio between channels.
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QT1100 can functionally test any device working at 5V in in-circuit as well as out-circuit using library defined test patterns. The Visual WorkStation (VWS) mode allows interactive testing of individual devices, as well as wholeboard test. The Device Under Test (DUT) is tested under actual in-circuit conditions, that are available on the board. QT1100 uses the back-driving or node-forcing technique to functionally test devices in-circuit. The back-driving current is limited to 220 mA and back-driving time is limited to 65 m.secs. to comply with the International Defence Standards 00-53/1.
1. In-Circuit Digital Functional Testing
2. Auto compensation with Qmax Simulator
3. Board Learn & Board Test Modes
4. QSM VI – an advanced tool for failure analysis
5. Auto Guarding
6. Logic Analyser
7. Circuit Tracing
8. Developing New Device Program
9. Short Locator
10. RCV Measurement & Oscilloscope
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| ... products without technical information |
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