Voltage Transformer
a type of intrument transformer enabling secondary connected metering.
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Product
NI-9262, 1 MS/s/ch Simultaneous, ±10 V, 6-Channel C Series Voltage Output Module
785503-02
Voltage Output Module
1 MS/s/ch Simultaneous, ±10 V, 6-Channel C Series Voltage Output Module - The NI-9262 is a simultaneously updating analog output module. It features overvoltage protection, short-circuit protection, low crosstalk, fast slew rate, high relative accuracy, and NIST-traceable calibration. The NI-9262 module includes a channel-to-earth ground isolation barrier for safety and noise immunity.
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Product
sbRIO-9239, Non-Enclosed, ±10 V, 50 kS/s/ch, 24-Bit, Simultaneous Input, 4-Channel C Series Voltage Input Module
780875-01
Voltage Input Module
Non-Enclosed, ±10 V, 50 kS/s/ch, 24-Bit, Simultaneous Input, 4-Channel C Series Voltage Input Module - The sbRIO‑9239 performs differential analog input. With channel‑to‑channel isolation, your entire system, including the device under test, is protected from harmful voltage spikes up to the isolation rating. In addition to safety, isolation eliminates measurement errors caused by ground loops because the front end of the module is floating. Designed for both speed and accuracy, the sbRIO‑9239 is an effective general-purpose analog module because of its resolution, sample rate, and input range. Non-enclosed modules are designed for OEM applications.
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Product
Isolated AC Voltage Input Module
ADAM-3112
Voltage Input Module
0 ~ 450 VAC to 0 ~ 5 VDCAC voltage measurement1,000 VDC isolation between output and power2,500 VAC isolation between output and inputInput impendent: 2 MohmMulti input modesAccuracy: ±0.1% FSRFlexible Din-rail mountingOperates from a single +24VDC
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Product
NI-9264, 25 kS/s/ch Simultaneous, ±10 V, 16-Channel C Series Voltage Output Module
780927-01
Voltage Output Module
25 kS/s/ch Simultaneous, ±10 V, 16-Channel C Series Voltage Output Module - The NI‑9264 is a simultaneously updating analog output module that accommodates higher‑channel‑count systems. Higher density modules conserve chassis space, which leaves room for other measurement types. Each channel has its own digital‑to‑analog converter. The spring-terminal version of the NI‑9264 uses a 36‑position connector for the output channels, and each channel has a ground connection.
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Product
NI-9228, ±60 V, 1 kS/s/ch, 24-Bit, Simultaneous Input, 8-Channel C Series Voltage Input Module
783861-01
Voltage Input Module
±60 V, 1 kS/s/ch, 24-Bit, Simultaneous Input, 8-Channel C Series Voltage Input Module - The NI‑9228 performs differential analog input. With channel-to-channel isolation, your entire system, including the device under test, is protected from harmful voltage spikes up to the isolation rating. The NI‑9228 is simultaneous sampling with two options for filtering: a low-latency filter or a 50/60 Hz rejection filter. The low-latency filter enables users to use this module in industrial or control applications while getting better external noise rejection.
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Product
NI-9201, ±10 V, 500 kS/s, 12-Bit, 8-Channel C Series Voltage Input Module
779372-01
Voltage Input Module
±10 V, 500 kS/s, 12-Bit, 8-Channel C Series Voltage Input Module - The NI‑9201 is an effective combination of channel count and speed at a low price for an economical multifunction system. The module features up to 100 V of overvoltage protection for errant signal connection or unexpected signals to the individual channels.
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Product
sbRIO-9201, Non-Enclosed, ±10 V, 500 kS/s, 12-Bit, 8-Channel C Series Voltage Input Module
781114-01
Voltage Input Module
Non-Enclosed, ±10 V, 500 kS/s, 12-Bit, 8-Channel C Series Voltage Input Module - The sbRIO‑9201 is an effective combination of channel count and speed at a low price for an economical multifunction system. In addition to the absolute protection from the isolation, the module features up to 100 V of overvoltage protection for errant signal connection or unexpected outputs to the individual channels. Non-enclosed modules are designed for OEM applications.
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Product
NI-9225, 300 Vrms, 50 kS/s/ch, 24-Bit, Simultaneous Input, 3-Channel C Series Voltage Input Module
780159-01
Voltage Input Module
300 Vrms, 50 kS/s/ch, 24-Bit, Simultaneous Input, 3-Channel C Series Voltage Input Module - The NI‑9225 performs differential analog input. The wide measurement range is well suited for high-voltage measurement applications such as power metering, power quality monitoring, motor test, battery stack testing, and fuel cell tests. You can perform transient and harmonic analysis with high-speed simultaneous sampling. In addition, you can prevent ground loops and add safety to a system with 600 Vrms channel‑to‑channel isolation between the three NI‑9225 channels.
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Product
NI-9229, ±60 V, 50 kS/s/ch, 24-Bit, Simultaneous Input, 4-Channel C Series Voltage Module
779785-02
Voltage Input Module
±60 V, 50 kS/s/ch, 24-Bit, Simultaneous Input, 4-Channel C Series Voltage Module - The NI‑9229 performs differential analog input. The NI‑9229 is an effective general-purpose analog module because of its resolution, sample rate, and input range. With channel‑to‑channel isolation, your entire system, including the device under test, is protected from harmful voltage spikes up to the isolation rating. In addition to safety, isolation eliminates measurement errors caused by ground loops because the front end of the module is floating.
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Product
NI-9264, 25 kS/s/ch Simultaneous, ±10 V, 16-Channel C Series Voltage Output Module
780927-02
Voltage Output Module
25 kS/s/ch Simultaneous, ±10 V, 16-Channel C Series Voltage Output Module - The NI‑9264 is a simultaneously updating analog output module that accommodates higher‑channel‑count systems. Higher density modules conserve chassis space, which leaves room for other measurement types. Each channel has its own digital‑to‑analog converter. The spring-terminal version of the NI‑9264 uses a 36‑position connector for the output channels, and each channel has a ground connection.
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Product
NI-9229, ±60 V, 50 kS/s/ch, 24-Bit, Simultaneous Input, 4-Channel C Series Voltage Module
780180-01
Voltage Input Module
±60 V, 50 kS/s/ch, 24-Bit, Simultaneous Input, 4-Channel C Series Voltage Module - The NI‑9229 performs differential analog input. The NI‑9229 is an effective general-purpose analog module because of its resolution, sample rate, and input range. With channel‑to‑channel isolation, your entire system, including the device under test, is protected from harmful voltage spikes up to the isolation rating. In addition to safety, isolation eliminates measurement errors caused by ground loops because the front end of the module is floating.
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Product
sbRIO-9221, Non-Enclosed, ±60 V, 800 kS/s, 12-Bit, 8-Channel C Series Voltage Input Module
781115-01
Voltage Input Module
Non-Enclosed, ±60 V, 800 kS/s, 12-Bit, 8-Channel C Series Voltage Input Module - The sbRIO‑9221 performs single-ended analog input. The wider voltage range makes this module well suited for industrial-level, automotive, or even smaller-cell battery measurements. There are two connector options for the sbRIO‑9221: a 36‑position spring‑terminal connector and a 37‑position DSUB connector. Non-enclosed modules are designed for OEM applications.
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Product
NI-9202, ±10 V, 10 kS/s, 24-Bit, 16-Channel C Series Voltage Input Module
784400-01
Voltage Input Module
±10 V, 10 kS/s, 24-Bit, 16-Channel C Series Voltage Input Module - The NI-9202 has excellent flexibility to meet the needs of your applications. The module has 16 simultaneous sampling, differential input channels to create large, distributed systems in a rugged form factor. It also has configurable filters to eliminate noise in your system while maintaining low-latency to be used in control systems.
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Product
NI-9239, ±10 V, 50 kS/s/ch, 24-Bit, Simultaneous Input, 4-Channel C Series Voltage Input Module
779593-01
Voltage Input Module
±10 V, 50 kS/s/ch, 24-Bit, Simultaneous Input, 4-Channel C Series Voltage Input Module - The NI‑9239 performs differential analog input. With channel‑to‑channel isolation, your entire system, including the device under test, is protected from harmful voltage spikes up to the isolation rating. In addition to safety, isolation eliminates measurement errors caused by ground loops because the front end of the module is floating. Designed for both speed and accuracy, the NI‑9239 is an effective general-purpose analog module because of its resolution, sample rate, and input range.
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Product
sbRIO-9201, Non-Enclosed, ±10 V, 500 kS/s, 12-Bit, 8-Channel C Series Voltage Input Module
781113-01
Voltage Input Module
Non-Enclosed, ±10 V, 500 kS/s, 12-Bit, 8-Channel C Series Voltage Input Module - The sbRIO‑9201 is an effective combination of channel count and speed at a low price for an economical multifunction system. In addition to the absolute protection from the isolation, the module features up to 100 V of overvoltage protection for errant signal connection or unexpected outputs to the individual channels. Non-enclosed modules are designed for OEM applications.
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Product
sbRIO-9215, Non-Enclosed, ±10 V, 100 kS/s/ch, 16-Bit, Simultaneous Input, 4-Channel C Series Voltage Input Modul
780878-01
Voltage Input Module
Non-Enclosed, ±10 V, 100 kS/s/ch, 16-Bit, Simultaneous Input, 4-Channel C Series Voltage Input Module - The sbRIO‑9215 performs differential analog input. The sbRIO‑9215 contains NIST‑traceable calibration, a channel‑to‑earth ground double isolation barrier for safety and noise immunity, and high common-mode voltage range. Non-enclosed modules are designed for OEM applications.
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Product
NI-9229, ±60 V, 50 kS/s/ch, 24-Bit, Simultaneous Input, 4-Channel C Series Voltage Module
779785-01
Voltage Input Module
±60 V, 50 kS/s/ch, 24-Bit, Simultaneous Input, 4-Channel C Series Voltage Module - The NI‑9229 performs differential analog input. The NI‑9229 is an effective general-purpose analog module because of its resolution, sample rate, and input range. With channel‑to‑channel isolation, your entire system, including the device under test, is protected from harmful voltage spikes up to the isolation rating. In addition to safety, isolation eliminates measurement errors caused by ground loops because the front end of the module is floating.
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Product
AC-Powered, AC Voltage Monitor, Adjustable
VMA
Voltage Monitor
NAI’s VMA is a field-adjustable, AC-Powered, AC Voltage Monitor used to monitor voltage characteristics of single- or three-phase power lines. This allows normal operation of system loads when the power-line characteristics are within pre-determined limits.High and low voltage limits, and "pick-up" and "drop-out" time delay are field-adjustable. The VMA voltage monitor is ideally suited for rugged defense and industrial applications.
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Product
NI-9202, ±10 V, 10 kS/s, 24-Bit, 16-Channel C Series Voltage Input Module
784400-02
Voltage Input Module
±10 V, 10 kS/s, 24-Bit, 16-Channel C Series Voltage Input Module - The NI-9202 has excellent flexibility to meet the needs of your applications. The module has 16 simultaneous sampling, differential input channels to create large, distributed systems in a rugged form factor. It … also has configurable filters to eliminate noise in your system while maintaining low-latency to be used in control systems.
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Product
NI-9206, ±10 V, 250 kS/s, 16-Bit, 32-Channel, 60 VDC Isolation C Series Voltage Input Module
779526-01
Voltage Input Module
±10 V, 250 kS/s, 16-Bit, 32-Channel, 60 VDC Isolation C Series Voltage Input Module - The NI‑9206 performs differential analog input with four programmable input ranges. The module provides up to 600 VDC (400 VDC in Europe) channel‑to‑earth ground isolation, making the module ideal for accurately monitoring large fuel cell and battery stacks. By referencing the module common (COM) to the middle of the NI‑9206 bank, you can measure 16 consecutive cells and remain within 10 V of the module COM.
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Product
NI-9221, ±60 V, 800 kS/s, 12-Bit, 8-Channel C Series Voltage Input Module
779373-01
Voltage Input Module
±60 V, 800 kS/s, 12-Bit, 8-Channel C Series Voltage Input Module - The NI‑9221 performs single-ended analog input. The wider voltage range makes this module well suited for industrial-level, automotive, or even smaller-cell battery measurements. There are two connector options for the NI‑9221: a 36‑position spring‑terminal connector and a 37-position D‑SUB connector.
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Product
Transformer Testers
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*Quickly tests deenergized power distribution transformers*Briefly energizes the transformer and takes a snapshot of the condition by measuring the voltage, current and power factor of the test signal*Tests overhead, pad-mount and distribution transformers*Audible alarm confirms successful test*Improve SAIDI statistics by quickly testing and getting the transformer back in service*Auto self-test performed with every test*Compact, lightweight and easy-to-use
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Product
Power Transformers
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Power Transformers are used to convert voltages and isolate signals for functionality and safety. Our broad line of catalog and custom solutions range from mW to 5-10kW and are used in multiple topologies including flyback, forward, push-pull, resonant, LLC and phase shifted full bridges. Typical operating frequencies are between 80-500kHz but solutions can be adapted for greater than 1MHz operation.
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Product
Rectifier Transformers
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Osborne’s Rectifier Transformers are used in conjunction with various rectification configurations to convert AC input to DC output(s). Key characteristics include regulation, transformer utilization and AC ripple. Osborne rectifier transformer designs are often engineered to operate in advanced rectifier circuit applications.
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Product
Isolation Transformers
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Osborne’s Isolation Transformers are used to step-up, step-down and isolate voltages in single phase circuits. Isolation may be used to provide output circuit immunity from voltage spikes and noise (both common-mode and transverse-mode) present on the input system. The isolation can allow separate grounds on both the input and output sides of the transformer. Osborne also designs with a range of electrostatic shielding to provide several levels of noise immunity.
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Product
Distribution Transformer Tester
ADOC-3
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The ADOC-3 is an equipment that has been designed to test distribution network transformers from 5 kVA to 3MVA.
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Product
High Impedance Transformers
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Osborne high impedance transformers are used to step-up, step-down and isolate voltages in single phase and three phase circuits. A properly designed high impedance transformer can be used an an equivalent to an isolation transformer connected in series with an inductor. The high impedance characteristic may be employed as a current limiting feature in both the primary and secondary circuity.
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Product
DGA Monitor for Transformers
OPT100 Optimus™
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The Vaisala Optimus OPT100 DGA (Dissolved Gas Analysis) Monitor for Transformers gives you out of the box performance, completely eliminates false alarms, and offers the best long-term stable measurements of any device on the market – all with no maintenance. Spectral scanning provides selective gas measurement.
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Product
Transformer Test Equipment
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DV Power test instruments perform various diagnostic tests on power and instrument transformers. Even more, a unique feature is a condition assessment of on-load tap changers. Performing a transformer test before their breakage can be crucial.Test instruments are portable and enclosed in durable metal cases. Also, the 19” rack-mounted version suitable for factories is available as well.Applications supported by DV Power transformer test equipment include:Winding resistance measurement (IEC 60076-1)Analysis of on-load tap changers (IEC 60214-1)Heat run test (IEC 60076-2)Automatic transformer demagnetizationTurns ratio measurement of power and instrument transformers (IEC 60076-1)Excitation current measurementPhase angle measurementTransformer vector group detectionDemagnetization status verificationAll of the above-mentioned measurements are performed with the highest accuracy.The advanced DV-Win PC software collects both numerical and graphical results. As a result of that, these features provide an easier and more efficient analysis. After the test, DV-Win software generates a test report with a single click. Furthermore, a user can easily customize the test report and save it in different formats, such as XLS or PDF.Finally, the analysis of on-load tap changers is performed by the new method called dynamic resistance measurement (DRM). This is a non-intrusive method. Therefore, it allows detecting problems in on-load tap changers without disassembling them.





























