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* 14 bit transient recorder
* One channel with 400 MS/s
* Monolithic A/D converter (no interlace)
* Two channels with 250 MS/s
* High dynamic range
* Up to 2 GSample memory
* 6 input ranges between ±100 mV and ±5 V
* 50 Ohm/1 MOhm, AC/DC, bandwidth filter software selectable
* Automatic on-board calibration
* Synchronisation to multi-board system possible
* 32 Bit 66 MHz PCI/PCI-X interface available
* PCI Express x1 Interface available
The 6 models of the M3i.41xx series are designed for the fast and high quality data acquisition. Each of the input channels has its own monolithic A/D converter and its own programmable input amplifier. This allows to record signals simultaneously on both channels with 14 bit resolution without any phase delay between them. The extremely large on-board memory allows long time recording even with the highest sampling rates. All boards of the M3i.41xx series may use the whole installed on-board memory for the currently activated number of channels. A FIFO mode is also integrated on the board. This allows the acquisition of data continuously for online processing or for data storage to hard disk.
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* High-performance 8 bit transient recorder
* 4 simultanous channels with 100 MS/s
* 2 simultanous channels with 200 MS/s
* Systems up to 64 x 100 MS/s 8 bit A/D available
* 32 Bit 66 MHz PCI interface available
* PCI Express x1 interface available
* Up to 4 GSample memory
* 7 input ranges between ±50 mV and ±5 V
* Input offset up to ±400%
* Window/pulse width/re-arm/OR/AND trigger
* Automatic offset calibration
* Synchronisation to multi-board system possible
* ABA mode available as an option
The four models of the M2i.20xx series are designed for the fast and high quality data acquisition. Each of the up to four input channels has its own A/D converter and its own programmable input amplifier. This allows to record signals on all channels with 8 bit resolution without any phase delay between them. The inputs can be selected to one of seven input ranges by software and can be programmed to compensate an input offset of ±400% of the input range.
The extremely large on-board memory allows long time recording even with highest sampling rates. A FIFO mode is also integrated on the board. This allows to acquire data continuously for online processing in the PC or for data storage on hard disk.
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* 14 bit transient recorder
* Two channels with 250 MS/s
* High dynamic range
* 32 Bit 66 MHz PCI interface available
* PCI Express x1 interface available
* Up to 2 GSample memory
* 6 input ranges between ±100 mV and ±5 V
* 50 Ohm/1 MOhm, AC/DC, bandwidth filter software selectable
* Automatic on-board calibration
* Synchronisation to multi-board system possible
The 6 models of the M3i.41xx series are designed for the fast and high quality data acquisition. Each of the input channels has its own monolithic A/D converter and its own programmable input amplifier. This allows to record signals simultaneously on both channels with 14 bit resolution without any phase delay between them. The extremely large on-board memory allows long time recording even with the highest sampling rates. All boards of the M3i.41xx series may use the whole installed on-board memory for the currently activated number of channels. A FIFO mode is also integrated on the board. This allows the acquisition of data continuously for online processing or for data storage to hard disk.
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1 digitizing channels
• 4 GS/s maximum sampling rate
• 8 bits vertical resolution
• 256 MS to 4 GS on-board acquisition memory
• 1.5 GHz bandwidth
• 7.6 bit ENOB
• Full-size, single-slot PCI card
• Full-featured front-end, with software selection of all signal conditioning settings
• 32 bits, 66 MHz PCI standard for 200 MB/s transfer to PC memory
• Ease of integration with Reference Clock In and Clock Out, External Trigger In and Trigger Event Out
• Programming-free operation with GageScope® oscilloscope software
• Software Development Kits available for LabVIEW, MATLAB, C/C# and more
The CobraMax CompuScope family of GaGe ultra high-speed 8-bit digitizers provides the most powerful combination of speed, memory, and bandwidth as well as a wide portfolio of advanced acquisition features.
The GaGe CobraMaxTM family of digitizers features up to 2 channels in a single-slot PCI card with up to 4 GS/s sampling per channel, and up to 4 GB of on-board acquisition memory. Combine several CobraMax cards for up to 16 simultaneous channels in a single system.
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Looking for something to replace that bulky benchtop oscilloscope?
A high-performance PC Oscilloscope from the PicoScope 5000 Series is your ideal choice.
As well as a 2-channel USB Oscilloscope, the PicoScope 5000 Series can also be used for high-speed data acquisition and includes an arbitrary waveform generator that can generate a waveform of almost any shape.
Other oscilloscopes at this price range force you to compromise on either bandwidth, sampling rate or buffer memory. With class-leading bandwidth, sampling rate and memory depth, and an array of advanced high end features, PicoScope 5000 PC Oscilloscopes give you the features and performance you need without compromise.
When performance is paramount, a PicoScope 5000 high-performance oscilloscope meets your needs.
* 250 MHz bandwidth
* 1 GS/s real-time sample rate
* 128 Megasample buffer memory
* Arbitrary waveform generator
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Specifications:
* LF-190E 60MHz :
- 60 MHz Oscilloscope Probe
- ITEM 10 : 1 Bandwidth
- DC~40MHz( +/- 1dB), DC~60MHz(+/-3dB)
- Item: 1: 1
- DC~3MHz(+/-1dB), DC~6MHz(+/- 3dB)
- Input R 10: 1 =10M Ohm = 22pF
- Input R 1:1 =1M Ohm (Oscillosocpe) = 180pF
- Input C : at Oscilloscope Input 20pF
- ATT Ratio : 1 / 10 ; 1 / 1
- MAX Input Voltage DC 600V
* LF-210E 100MHz :
- 100 MHz Oscilloscope Probe
- ITEM 10 : 1 Bandwidth
- DC~60MHz (+/- 1dB), DC~100MHz( +/-3dB)
- Item: 1: 1
- DC~6MHz (+/- 3dB)
- Input R 10: 1 =10M Ohm
- Input R 1:1 =1M Ohm (Oscillosocpe) = 150pF
- Input C : 10:1 =14pF / 1:1 150pF at Oscilloscope Input 20pF
- ATT Ratio : 1 / 10 ; 1 / 1
- MAX Input Voltage DC 600V
* LF-250 250MHz :
- 250 MHz Oscilloscope Probe
- ITEM 10 : 1 Bandwidth
- DC~250 MHz(+/- 1dB)
- Item: 1: 1
- DC~6MHz( +/- 3dB)
- Input R 10: 1 =10M Ohm
- Input R 1:1 =1M Ohm (Oscillosocpe)
- Input C : 10: 1 =14pF/ 1:1 = 150pF at Oscilloscope Input 20pF
- ATT Ratio : 1 / 10 ; 1 / 1
- MAX Input Voltage DC 600V
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The 5800 series is a multi-configuration multi-functional test system that is designed to meet the ever changing needs of today's electronic manufacturing environment. An open approach to both hardware and software has been adopted. The open software architecture enables integration with code written using third party software such as Teststand™, Labview™, C#™ and VB.NET™, in short any platform that is .NET compliant.
The open hardware architecture allows configurable chassis and interface styles to accommodate low cost analog in-circuit testing, through to high integrity analog and digital functional test solutions. The integrated 21-slot PXI based backplane enables the user to implement solutions using not only Aeroflex PXI cards but also cards from any PXI card supplier. The 5800 Series of testers comprises three body styles, the 5850, 5830 & 5820.
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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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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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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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Features
Integrated test system
Compact footprint
Fixtures compatible with TCIL-P and TCIL-TS
Compact PLC for internal controls
Visualization and tester interface on external PC (e.g. tester PC) via USB interface
Stand alone operation
Manual width adjustment
SMEMA Interface
Compatibility with all standard test systems
Options
Product specific fixtures
ESD covers
Safety automatic door
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ScopeMeter® 190 Series: Speed, performance and analysis power
For the more demanding applications, the ScopeMeter 190 Series high-performance oscilloscopes offer specifications usually found on top-end bench instruments. With up to 200 MHz bandwidth, 2.5 GS/s real-time sampling and a deep memory of 27,500 points per input they're ideal for engineers who need the full capabilities of a high-performance oscilloscope in a handheld, battery powered instrument.
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The 3500A improves upon the success of the Aeroflex 3500, the industry's first 1GHz hand-held test set. Now at less than 8 lbs., and packaged in a NEW cast magnesium alloy case, the Aeroflex 3500A is truly a rugged and portable radio test set. With NEW integrated audio connectors and a microphone connector, the 3500A offers even easier operation than the 3500.
A Radio Test Set that can be used anywhere
Featuring full radio test set features, with up to 7 hours of battery life, the Aeroflex 3500A is ready to be used anywhere. The 3500A is perfect for testing AM and FM radio transceivers, whether on a bench, installed in a vehicle, or in some remote location. It also has the power to test the cables and antennas, making it the only hand-held radio test set that can test all the components of an installed radio system.
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The T564 is Highland Technology's latest in its series of mini embedded digital delay generators. Starting with an internal or external trigger, the module produces four output pulses programmable for delay and width, with nanosecond-to-second range and picosecond jitter and resolution. The T564 introduces three unique features to digital delay generation: "Queued Updates" allow time settings to be changed without corrupting ongoing timings; a "Train" function allows multiple pulses to be generated from each trigger; and the "Frames" feature allows complex delay sweeps and pulse scenarios to be pre-loaded and rapidly executed, making the T564 ideal for laser timing, radar simulation, and ultra-high-speed imaging.
The T560-1 is the standard, packaged version, usable in many OEM applications and as the evaluation unit for custom versions. It uses the technology developed for the Highland model V851 (VME module) and P400 (benchtop) digital delay generators, with basic TTL/CMOS input and output levels and advanced logic.
The T560 accepts an internal or external trigger and generates four precise output pulses, each user programmable in time delay and width. It is ideal for laser sequencing, radar/lidar simulation, or sequential event triggering. It is easily mounted within systems enclosures, allowing short cable runs and reliable, unattended operation.
T560 Embedded small-size delay generator
http://www.highlandtechnology.com/DSS/T560DS.html
T564 Embedded programmable DDG w/meta function
http://www.highlandtechnology.com/DSS/T564DS.html
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The P400 is a benchtop digital delay and pulse generator that generates four separately programmable delay-and-width outputs. The P400 can generate delays up to 1000 seconds in 1ps increments, and is capable of a high repetition rate of 10MHz. Applications for the P400 include laser timing, ICCD camera systems, ATE systems, and radar testing.
Triggering - P400 triggers include internal, external, remote, or line. The internal DDS rate generator may be programmed from 0.01Hz to 10MHz in 0.01Hz steps. The external trigger features selectable trigger level, slope, and termination impedance. Line trigger is enabled via an external AC line adaptor. The P400 may also be triggered manually or from the remote RS-232 or Ethernet interfaces. Trigger gating and burst facilities are standard.
Timebase - The standard P400 timebase is a precision TCXO temperature-compensated crystal oscillator. An optional ovenized oscillator is available for applications requiring extreme accuracy and lowest jitter. Mutiple P400s may be synchronized to each other, or locked to an external 10 MHz source.
Onboard Help - An extensive help system explains each pushbutton, input, output, and setting on the 4-line front-panel display.
Menus - Each function of the P400 has a dedicated single-level control menu invoked by an associated pushbutton. Data entry may be via numeric keys or by the spinner knob.
Remote Control - All P400 parameters may be programmed remotely using standard RS-232 or optional Ethernet interfaces.
Features:
* 4 delay and width outputs
* 1 ps resolution
* Up to 1000 s delay>
* 25 ns insertion delay
* <10 ps RMS typical jitter
* 10 MHz rep rate
* Programmable trigger threshold
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Model 575 Digital Delay / Pulse Generator
Delay Generator Versatility: Timing Resolution- RMS Trigger Jitter-
Adjustable Delay- Adjustable Width- Selectable Sync Source- Negative Delays- Independent Delay Properties, Width Properties, Amplitude and Rate on each Channel- Duty Cycle, Multiplex, Wait-N-Pulses, Dual Triggers, Dual Gating
Features
250pS Delay & Width Resolution
200pS channel Jitter / 800pS RMS Ext. jitter
Independent clock rates for each channel
Clock In & Clock Out
Programmable (Ethernet/USB/RS-232/GPIB)
Combine Electrical and Optical Outputs
Dual Inputs (2 Gate / Gate+Trig / 2 Trig)
Applications
Trigger, Gate, Delay, Pulse or Sync
Sync to an External Clock (up to 100 MHz)
Master/Slave or Multiple Unit Slave
Pulse Pick (up to 100 MHz)
Combine Pulses on One Channel
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Specifications:
Mini Manual pulse generator for frontpanel built in.
Pulses: 100
Channel: A + B
Supply voltage: 5... 24V DC
Output circuit: Push-Pull
Protection: IP 50
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General description :
The model 9528 Pulse Generator takes pulse generator and digital delay technology to new levels. Cost effective, yet extremely capable, this instrument provides solutions to generate and synchronize multiple pulses and triggers for a wide variety of applications from simple to complex.
The 9528 provides up to eight fully independent digitally controlled channels having width, delay, rate and amplitude control on each output. For automated test sequencing, all common computer interfaces are available such as RS232, USB, GPIB and Ethernet.
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General description :
The Model 9518+ Digital Delay Pulse Generator with 8 independent outputs is designed to provide cutting edge, yet cost-effective solutions to generate and synchronize multiple pulses for a variety of applications. The delay and pulsewidth for each channel are independent and digitally controlled which makes this pulse generator ideal for situations that require synchronizing a number of different events. Flexible operating modes allow complete control of pulse outputs, including continuous, duty cycle, burst and single shot with external trigger/gate. Advanced features, such as Multiplexing, allow the timing of all or several channels to be combined for complex pulse patterns. For automated test equipment, complete control of the instrument is provided through the standard RS232, USB and GPIB Interface.
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General description :
The Model 9618+ Digital Delay-Pulse Generator with 8 independent outputs is our most affordable digital delay/pulse generator - Ideal for applications that require moderate precision and multi-channel capability. The delay and pulsewidth for each channel are independent with 2-20 volt output range, allowing the user to drive a wide range of load circuitry. This pulse generator offers several operating modes, including continuous, burst, single shot and external trigger/gate, allowing complete control of the pulse outputs. With precise control of the delay periods and quick recall of up to 6 system configurations, the instrument is instantly ready for use. For automated test equipment, complete control of the instrument is provided through the standard RS232 interface.
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General description : High-quality laser timing and laser synchronizing at affordable pricing, the 9530 Pulse Generator is the first pulse generator on the market.
The 9530 Pulse Generator incorporates laser timing and laser synchronization to effectively produce any series of events. The 9530 is ideal for laser timing applications with eight independent outputs, dual laser trigger/gate inputs and external laser clock reference input.
The 9530 can accept a low amplitude 20mV, 100MHz clock frequency, which offers the ability to synch directly to a laser photodiode signal and allows for system timing with low jitter laser timing.
The 9530 can be used as a master time base to other delay generators or equipment with a 50 Ohm load. Precision laser timing is the foundation for the 9530 Pulse Generator - offering 50pS internal jitter and 250pS Delay and Width resolution.
The following features allow the users to set up an intricate experiment or synchronizing multiple timed events: Ethernet/USB interface, complex burst sequences, Divide-by-N, Setting Profiles, Dual Triggers, Clock Divider, Pulse Picking and Negative Delays
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The 60 Pole Pair Magnet Wheel is a ferro-magnetic nylon wheel with 120 alternating magnetic poles infused within the material. It is 3-3/4 inches in diameter, with the magnetic surface on the outside circumference of the wheel. The magnets are rectangular and are evenly spaced with very small non-magnetized spaces between them. The wheel is typically mounted on a shaft, up to 3 inches in diameter. These shaft mount wheels are custom bored to slide snugly onto the shaft, and are secured to the shaft with two set screws. Many standard hub sizes are in stock, including popular NEMA C Frame Motor sizes. These Wheels are also available in end-of-shaft mount versions.
Features:
- Custom Mounting Hubs
- Produces 60 or 120 pulses per revolution
- Over the Shaft Mount or End-Of-Shaft Mount
- NEMA-C Flange Ring Kit Compatible
- Non-Contact Sensing
- 10,000 rpm Maximum Speed
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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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Unlike Function Generators, Pulse Generators are wholly dedicated to generate pulses and for control of pulse related parameters such as pulse width, rise/fall time etc. Various Pulse Generators are differentiated by their pulse repetition rate and the control capability of their pulse width, delay and transition times.
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The 3920 is the latest in next generation portable test for advanced professional analog and digital radio 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.
Platform:
Within the 3920 Series is a Pentium based processor coupled with a stable Linux platform provides a solid foundation for a powerful systems based test solution capable of addressing many different technologies. Three powerful digital signal processors can deliver unparalleled performance to address many different test requirements with ease. An internal 40 GB hard drive provides virtually unlimited storage for user setups, screen shots and test data. Files can be easily transferred to a USB thumb drive for external storage or processing. Setup files can be easily transferred from one instrument to another.
The platform also supports the ability to add software options to expand the measurement and signaling capabilities for communications systems that utilize advanced digital modulation and protocols.
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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
* Quickly and easily provides accurate measurement of transponder transmitting frequency, power and receiver sensitivity. Predetermined configurations for testing any class of transponder.
* Tests 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. Provides accurate range and velocity simulation, station ident, squitter control.
* Simulates the airborne environment necessary to allow 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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Real-Time Spectrum Analyzer - RTSA
RSA3000B Real-Time Spectrum AnalyzerToday's RF signals change over time, often unpredictably. To effectively characterize these signals, engineers need next generation tools that help them solve unexpected problems. Tektronix Real-time spectrum analyzers offer the unique capability to:
* Discover the unexpected with DPX™ "Live RF" spectrum display
* Trigger on transient signals as fast as 20 microseconds
* Capture a seamless time record of RF frequencies
* Analyze complex RF signals with multi-domain time correlated measurements
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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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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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OMICRON secondary injection test sets and measurement devices are the right choice for Utilities, Industry and Railway as well as for Relay and Measurement Device Manufacturers. The combination of a robust, truly portable, reliable and accurate Hardware design together with the unrivaled Test Universe Software is the basis for OMICRON's ongoing success in maintaining its place as World Leader in the 3-Phase secondary injection test set market.
CMC 356 - Protection Relay Test Set and Commissioning Tool
The CMC 356 is the universal solution for testing all generations and types of protection relays. Its powerful current outputs make it ideal for testing electromechanical relays with high power demands. The integrated network interface also enables the use of the device for testing in IEC 61850 environments with GOOSE and Sampled Values simulation and subscription functionality.
CMC 256plus - Protection Relay Test Set and Universal Calibrator
The CMC 256plus with its extended precision is the most accurate solution for testing protection 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 precision. With its IEC 61850 GOOSE and Sampled Values simulation and subscription functionality it leads the way in testing IEC 61850 substations.
CMC 156 - 3 Phase Voltage / 3 Phase Current Test Set
The CMC 156 is the smallest and lightest solution for three-phase testing of numerical relays, meters and transducers. Weighing only 9.8 kg / 22 lb., it is ideal for applications requiring a high degree of portability.
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Oscilloscopes, Spectrum analyzers, Signal generators
