NEO NXB - 20820 Voltage / Current Breakout Test Box
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On-Off power switch
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20 A Circuit Breaker
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Inlet - NEMA L6-20
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Outlets – NEMA L6-20R
Test Tap:
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3ft.
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(2) fork terminals (current)
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(1) fork terminals (ground)
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(2) Shielded Banana (voltage)
Single output for passthrough to test rack. Tester pigtail interface simplifies connecting to a variety of voltage/current measuring systems.
Voltage | Current | Input | Output | Test Output | Switch/Breaker |
208 | 20A | L6-20 - Cord | L6-20 R | Pigtail | Yes |
Application
More Product Information
- Two 120/240 V Outlets
- Circuitry rated for 20 A
- 8’ Flexible Power Cord
- Shrouded Safety Banana Jacks
- Stable footprint with non-slip feet
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32 GT/s, PCIe 5.0 data rate operation. Fully compatible with other PCIe data rates of 2.5, 5.0, 8.0 and 16.0GTps
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Link widths up to 8-lanes
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Memory segmentation for capture of multiple traces
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Simultaneous two-link, dual port capture is allowed by multiple users
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Host-Client connection for remote debugging using Ethernet, or local debugging using USB
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Decodes all PCIe and NVMe traffic at all layers of the stack including the TLP, DLLP, and PHY layer logic sub-blocks
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Trigger and Search events include training sequences, ordered sets, queue pairs, PRPs, Scatter/ Gather Lists (SGL) etc.
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Cascade up to four Xgig captures into a single trace view
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Full support of LTSSM for analysis
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Field replaceable modular fan and power supply assemblies
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LED’s give quick indicators of power and status
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Works with the VIAVI Xgig software tool suite: Trace Control, Trace View, Expert™, Serialytics™
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GPS signals simulated: L1, L1C*, L2C*, L5*
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Galileo signals simulated: E1, E5**, E5a**, E5b**
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Simultaneous GPS/Galileo simulation
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WAAS/EGNOS SBAS simulation
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Static and dynamic simulations via NMEA-0183 File Record and Playback
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12 channel configuration available with upgrade path (RAIM supported)
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Programmable space vehicle (SV) parametrics and health
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User or built-in GPS receiver referenced time and date
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PVT data available via RS-232
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User Defined Data Transferable between Linked GPSG units
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Remote control interface Ethernet
* For tracking of L1C, L2C or L5 signals some receivers require synchronized L1 transmissions.
** For tracking of E5 signals some receivers require synchronized E1 transmissions.
** For tracking of E5 signals some receivers require synchronized E1 transmissions.
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Operates up to and including 16GTps, PCIe 4.0 data rates
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One Pod supports link widths of up to 4-lanes. Multiple pods can expand link widths up to 16-lanes.
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Downward compatible with PCIe 1.0 to 3.0 data rates of 2.5, 5.0 and 8.0GTps
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Eight differential probe cables support simultaneous upstream and downstream capture
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Supplied with two high-quality SFF-8674 equivalent custom cables for Analyzer attachment
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Data path uses high-sensitivity amplifiers to ensure good signal capture with little or no tuning
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Supports Analyzer side-band signal triggering and capture
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Interposer power is independent of host system.
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Power supply, 120/220 input, 12V/3A output
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LEDs provide quick indication of power and status
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Size: 170 x 107 x 34 mm (6.7 x 4.2 x 1.3 in)
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Works together with multiple VIAVI Xgig PCIe Analyzer chassis types
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Provides consistent, repeatable capture of link training, equalization negotiation and other data
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Supported by Xgig tool suite including Trace Control, Expert™ and Serialytics™
- Capture from legacy to the latest video sources through support for SD analog to UHD digital formats
- Connect and switch between different video sources via Mini DisplayPort, HD-BNC, HDMI, and custom analog DVI1 connectivity
- Handle multiple video sources with the simultaneous capture of up to eight HD or two UHD streams2
- Optimize video transmission and storage through onboard multi-stream H.264 encoding
- Minimize system footprint by way of a single-slot PCIe card design
- Simplify application development using the Aurora Imaging Library, formerly Matrox Imaging Library (MIL), software development kit (SDK)
- Deploy on a current platform of choice with support for 64-bit Windows® 7/10 and Linux
The system detects position of the magnetic field sensor on the basis of the image on the camera first of all and then, recognizes strength of the signal that is measured by the sensor upon frequency analysis of the signal almost simultaneously. Finally, visualization of the strength level in composition with the real image of the measured object can be realized on screen of PC in form of heat map in colors.
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High responsiveness following to the image can be realized because of the image recognition setting according to colors on the sensor part.
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Composite strength distribution of the actual image taken by the camera and the measured data can be visualized.
NEO
NEO offers a line-up of Power measurement breakout boxes designed for use with Yokogawa's precision power analyzers.
Test & Measurement
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