Showing results: 241 - 251 of 251 items found.
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PCE Instruments
A vibration meter is used in manufacturing for machine condition monitoring, product testing and quality assurance. Many machine maintenance technicians use vibration meter devices in tandem with sound level meters to analyze frequency. A vibration meter also can be used in civil engineering to measure the vibration of structures such as buildings, roads and bridges. In addition, specialized vibration meter devices can be used to measure the vibration of the human body. Any vibration meter will measure one or more of the following parameters: vibration acceleration, vibration velocity (speed) and / or vibration displacement.A vibration meter is typically a portable device with a memory for storing measurements. Most vibration meter models feature a built-in data logger for collecting and recording vibration measurement data over time. In this way, vibration measurement data can be acquired with great precision.
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M9451A -
Keysight Technologies
The M9451A PXIe Measurement Accelerator combined with Option DPD Digital Pre-Distortion & Envelope Tracking Gateware shows what is possible when you combine state of the art FPGA's with Keysight's trusted measurement expertise and PXIe's high speed data handling. As part of Keysight's RF PA/FEM Characterization & Test, Reference Solution, this combination provides unprecedented performance for demanding envelope tracking and digital pre-distortion measurements required for testing modern power amplifiers (PAs) and front-end modules (FEMs). Hardware acceleration provides better than 20x speed improvement over Keysight's previous host-based Reference Solution, with closed/open loop digital pre-distortion (DPD) and envelope tracking (ET) measurements taking just tens of milliseconds and overall measurement times less than 70 ms.
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MANO521 -
Axiomtek Co., Ltd.
The MANO521 is a thin mini-ITX motherboard powered by the LGA1151 socket 9th/8th generation Intel® Core™ i7/i5/i3 (code name: Coffee Lake) with Intel® H310 chipset or optional Intel® Q370 chipset. This Intel® Coffee Lake-based motherboard provides rapid video acceleration advantage, multiple expansion interfaces and triple-view capability. It is designed with rich functionality, solid performance in a small footprint, making it suitable for a broad range of performance-driven embedded applications such as industrial automation, transportation, self-service kiosks, medical, and digital signage. The MANO521 features two high bandwidth 260-pin DDR4-2400/2666 with a memory capacity up to 32GB. It offers two SATA-600 sockets and one M.2 Key M 2242/2260/2280 connector for storage. The thin mini-ITX motherboard also provides various expansion interfaces within its limited dimensions including one PCIe x4, one full-size PCIe Mini Card slot and one M.2 Key E 2230, which offers diversity and flexibility for application integration. Moreover, the mini-ITX embedded board has a built-in DC Power Jack or ATX connector supporting 12V and 19 to 24V DC input with AT mode auto power function.
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MECS-7211 -
ADLINK Technology Inc.
The MECS-7211 Edge Server focuses on the edge of 5G networks to provide an open, white box platform for 5G Open RAN, private 5G networks, and a wide range of 5G MEC applications including smart cities, retail, manufacturing, autonomous vehicles, Argument Reality(AR), virtual reality(VR) and healthcare. The MECS-7211 is designed to meet stringent requirements by delivering a high level of deployment flexibility, reliability, scalability, and carrier-grade processing performance further augmented by hardware expansion. With a 450mm system depth in a small footprint 2U chassis, all I/O front access, wide operating temperature support (-5°C to +55°C), and PCIe expansion slots reserved for access to acceleration hardware such as GPU, FGPA and QAT adapters, ADLINK’s MECS-7211 is a high performance COTS platform that meets varying application and deployment requirements, and enables customers to focus on differentiating their end solutions.
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ECO-Vibe neo -
EMIC Corporation
ECO-Vibe neo has been designed for an eco-friendly vibration test system. The test conditions with a vibration test system depends on a unit under test. Generally, the exciting force required for performing a vibration test can be calculated by the product of mass (e.g. test article, jig, table, etc.) and test acceleration. But, when the required exciting force is smaller than the maximum rated exciting force of the vibration test system, the field power supply that the constant current has to be continuously provided to produce the DC magnetic field constitutes a large part of power consumption compared with the drive power for the moving element. ECO-Vibe neo can reduce the power consumption by choosing the exciting force in this case. In addition, you can enjoy a reduction merit of the running cost from the first year when the system is introduced because initial cost is zero.
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WISER 4000 -
TECAT Performance Systems, LLC
The WISER 4000 system is the latest release of TECAT’s low-cost, ultra-low power and extremely accurate torque sensor. The wireless system has the optional ability to measure 3-axis acceleration, barometric pressure and ambient temperature, all within the same incredibly small footprint. The 4000 includes on-board data logging without PC or DAQ connectivity, and remote flash capability, which enables firmware upgrades without removing the system from the unit under test. Featuring shunt calibration, TECAT’s latest WISER system is designed to simplify instrumentation verification for users, while allowing them to check calibration of the system in the field. In addition, the WISER 4000 has been enhanced with two additional outputs, a higher-speed recording, and is available with custom-built remote enclosures to protect the system’s remote unit and battery from damage due to debris.
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LC-8120/LC-8220 -
Ono Sokki
The LC-8120/8220 is the GPS-based speedometers which measure speed and distance of moving objects with high accuracy. Support for GLONASS satellite which is not supported in the conventional model (LC-8100A/8200A) to ensure stable measurement. Antenna for LC-8220 (LC-0721) is smaller and lighter than the conventional antenna for LC-8200A (LC-0086) and it enables easy operation. The new antenna (LC-0721) is able to attach to the conventional unit of LC-8200(A) for measurement. The linearity of acceleration and angular speed are improved by using the standard IMU (inertial measurement unit) together with the optional high accuracy IMU. Also, by adding the high response IMU analog output function (option), the analog output frequency of the IMU data can be increased from 100 Hz to 500 Hz. A wide range of optional functions such as white-line detecting function (LC-0856), jerk measurement function (LC-0871) and average deceleration speed calculation (function in the LC-0831) are available for various automotive tests.
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ADIS16490 iSensor -
Analog Devices Inc.
The ADIS16490 iSensor® device is a complete inertial system that includes a triaxial gyroscope and a triaxial accelerometer. Each inertial sensor in the ADIS16490 combines industry-leading iMEMS® technology with signal conditioning that optimizes dynamic performance. The factory calibration characterizes each sensor for sensitivity, bias, alignment, and linear acceleration (gyroscope bias). As a result, each sensor has its own dynamic compensation formulas that provide accurate sensor measurements. The ADIS16490 provides a simple, cost-effective method for integrating accurate, multiaxis inertial sensing into industrial systems, especially when compared with the complexity and investment associated with discrete designs. All necessary motion testing and calibration are part of the production process at the factory, greatly reducing system integration time. Tight orthogonal alignment simplifies inertial frame alignment in navigation systems. The SPI and register structure provide a simple interface for data collection and configuration control.
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NA860 -
Axiomtek Co., Ltd.
The NA860 offers a perfect mixture of performance, flexibility, and durability with server-class dual LGA3647 socket Intel® Xeon® Scalable processors and Intel® C621 chipset (codename: Purley). It is robust and highly reliable for use in a wide range of network applications such as SDN, NGFW, IDS, IPS, UTM, etc. Designed with flexibility in mind, the 2U rackmount network computing system is capable of managing numerous connected computers through an integration of up to eight expandable NIC modules which support a maximum of 66 LAN ports. These NIC modules feature support for copper, fiber, bypass, 1G/10G/40G Ethernet speeds, and hardware acceleration. The NA860 comes with twelve high-capacity DDR4-2400 R-DIMM slots with up to 384GB non-buffer non-ECC/ECC memory. Moreover, there are two hot-swappable 2.5-inch SATA HDD trays, one mSATA slot and one optional 3.5-inch SATA HDD tray for sufficient storage. Two PCIe x8 expansion slots are available for add-in cards.
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MECS-7210 -
ADLINK Technology Inc.
The MECS-7210 Edge Server focuses on the edge of 5G networks to provide an open, white box platform for 5G Open RAN, private 5G networks, and a wide range of 5G MEC applications including smart cities, retail, manufacturing, autonomous vehicles, Argument Reality(AR), virtual reality(VR) and healthcare. As one of the first NGC-Ready validated and OTII compliant edge servers, the MECS-7210 is designed to meet stringent requirements by delivering a high level of deployment flexibility, reliability, scalability, and carrier-grade processing performance further augmented by hardware expansion. With a 420mm system depth in a small footprint 2U chassis, all I/O front access, wide operating temperature support (-5°C to +55°C), and dual FHFL PCIe expansion slots reserved for access to acceleration hardware such as GPU, FGPA and QAT adapters, ADLINK’s MECS-7210 is a high performance COTS platform that meets varying application and deployment requirements, and enables customers to focus on differentiating their end solutions.
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MOTOMEA
*The performance data of electric motors, in the majority of all cases, is performed by a brake test. Power input is calculated from current and voltage. Torque and power output are measured with a brake. It is important to reach, for each point, a persistent temperature. In case of large outer rotor BLDC motors, which are usually used for electric scooters, this traditional procedure may take many hours to complete, and is very complicated. *For several years, an innovative motor tester of MEA Testing Systems Ltd. is on the market. This testing system avoids any temperature confusion by testing a motor at constant temperature over the entire speed range. The test procedure is very fast, and gives the full load performances, including PWM current, voltage, torque, and driver efficiency, from stall up to no load. *During the test procedure, the motor is freely accelerated from stall to no load speed. The load of the motor is only the predetermined inertia of the rotor. From the moment of inertia and the acceleration, the torque of the motor is calculated and, also, the power output over the whole speed is given. Since the entire measuring time, depending on the motor size, is usually less than one second, the motor has no time to warm up. It remains at room temperature.
