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Home > Electrical & Electronics > Electrical Control System > GE VMIVME7698 Single-Board Computer

GE VMIVME7698 Single-Board Computer

Guizhou Yuanmiao Automation Equipment Co., Ltd.

1Yr

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Negotiable MOQ: 1 Piece (Price negotiable depending on order volume and customization)

Key Specifications

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Material:

Other, Global universal model

Condition:

Other, Global universal model

Task:

Other, Global universal model

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Port of Shipment:

China

Delivery Detail:

Delivery time depends on order quantity.

Product Details
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Material Other, Global universal model

Condition Other, Global universal model

Task Other, Global universal model

Mathematical Model Other, Global universal model

Signal Other, Global universal model

Customized Non-Customized

Structure Other, Global universal model

operating temperature -20°C to 60°C

relative humidity 5%~95% (non-condensing)

Dimensions 168 x 150 x 55 mm

GE VMIVME7698 is a high-performance single-board computer based on the VME bus standard, with extensive and important applications in fields such as industrial control and embedded computing. With its advanced technical configuration and powerful functions, it provides reliable computing support for various complex industrial scenarios.

I. Core Functions

(1) Strong Computing and Processing Capability
High-performance processor: Equipped with a high-performance processor, it has excellent computing speed and data processing capability. This enables it to quickly process large amounts of complex data generated in industrial control processes, such as real-time collected sensor data and complex control algorithm operations. In the central control link of large industrial automated production lines, it is necessary to conduct real-time analysis and control on the operation status of equipment in multiple production lines. The strong computing capability of VMIVME7698 can ensure the efficient completion of these tasks, guaranteeing the continuity and accuracy of production.

Multi-task processing capability: It supports multi-task parallel processing, capable of running multiple different applications and control tasks simultaneously, with each task being independent and non-interfering with each other. In the monitoring system of smart factories, it is required to not only receive and process status information from various devices in real-time but also perform multiple tasks such as executing control commands and generating reports. The multi-task processing capability of this single-board computer can make these tasks proceed in an orderly manner, improving the overall operating efficiency of the system.

(2) Rich Interface and Expansion Capability
Diversified interface configuration: Equipped with rich interfaces, including Ethernet interface, serial communication interface (such as RS-232/485), USB interface, etc., which can meet the connection needs with different types of external devices. The Ethernet interface can realize high-speed data communication with upper computers and other control devices; the serial communication interface is suitable for connecting some traditional industrial instruments and sensors; the USB interface facilitates connecting external storage devices, debugging tools, etc. In industrial data acquisition systems, these interfaces can connect various scattered data acquisition devices to realize centralized aggregation and processing of data.

VME bus expansion: As a single-board computer based on the VME bus, it can make full use of the expansion capability of the VME bus, seamlessly connect with other VME modules (such as I/O modules, communication modules, etc.), and build a powerful industrial control system. Users can flexibly add or replace modules according to actual needs to expand the system functions without large-scale transformation of the entire system, reducing the cost and difficulty of system upgrading.

(3) Reliable Real-time Control Function
Support for real-time operating systems: Supports multiple real-time operating systems, such as VxWorks, QNX, etc. These operating systems have deterministic real-time response capabilities, ensuring that control tasks are completed within the specified time. In industrial scenarios with extremely high real-time requirements, such as the control of aerospace ground test equipment, it is necessary to precisely control each step of the test process. VMIVME7698 combined with a real-time operating system can meet such strict real-time control requirements, ensuring the accuracy and reliability of test data.

Precise timing and synchronization: It has precise timing and synchronization functions, which can provide a unified time reference for each node in the distributed control system, ensuring the collaborative work between each node. In the synchronous phasor measurement of power systems, multiple measuring devices are required to collect data at the same time. The precise synchronization function of this single-board computer can ensure the time consistency of data, providing strong support for the stability analysis and control of power systems.

II. Hardware Characteristics

(1) Rugged Structural Design
Adaptation to harsh environments: Adopts a rugged metal shell, with good anti-vibration and anti-impact performance, and can operate stably in harsh industrial environments such as high temperature, low temperature, humidity, and dust. In scenarios with large vibration and impact, such as vehicle-mounted control systems and shipborne equipment, VMIVME7698 can effectively resist the impact of the external environment and ensure the normal operation of the equipment.

Good electromagnetic compatibility: Has excellent electromagnetic compatibility (EMC), which can effectively resist external electromagnetic interference, and at the same time, the electromagnetic radiation generated by itself is low, which will not interfere with other surrounding equipment. In industrial sites with a large number of strong electromagnetic equipment (such as motors, frequency converters, etc.), this feature ensures the stable operation of the single-board computer and the accuracy of data transmission.

(2) Efficient Heat Dissipation Design
Optimized heat dissipation structure: The interior adopts a reasonable heat dissipation layout, through heat sinks, air ducts, etc., to quickly dissipate the heat generated by heat-generating components such as the processor. In the case of long-term high-load operation, such as continuous complex industrial control operations, it can effectively control the temperature of the equipment, avoiding performance degradation or equipment failure caused by overheating.

Fanless design option: Some models adopt a fanless design, reducing the use of mechanical components, improving the reliability and service life of the equipment, and at the same time reducing the noise during equipment operation. In environments sensitive to noise or difficult to maintain, such as medical equipment control and clean room control systems, the fanless design of VMIVME7698 has obvious advantages.

(3) Convenient Installation and Maintenance
Standard VME size: Adopts standard VME board size, which can be easily installed into VME chassis, compatible with other VME modules, facilitating system integration and installation. When building a VME bus control system, users can operate according to the standard installation process, improving the efficiency of system construction.

Easy maintenance design: On-board indicators can intuitively display the operating status of the equipment (such as power status, communication status, etc.), facilitating technical personnel to quickly judge whether the equipment is working normally. At the same time, the plug-in design of the module enables quick replacement when the equipment fails, shortening the maintenance time and reducing the system downtime loss.

III. Application Fields

(1) Industrial Automation
Production line control: In automated production lines such as automobile manufacturing and electronic production, as the control core, it is responsible for coordinating and controlling various equipment in the production line (such as robots, conveyor lines, processing equipment, etc.), and adjusting the operating parameters of the equipment in real-time according to production plans and process requirements to ensure the efficient and stable progress of the production process. For example, in the automobile welding production line, it controls the action sequence and welding parameters of welding robots to ensure the quality and precision of body welding.

Process control: In process industries such as chemical industry, metallurgy, and papermaking, it is used to conduct real-time monitoring and control of parameters such as temperature, pressure, flow, and liquid level in the production process. By collecting sensor data, using control algorithms to calculate the corresponding control quantities, and driving actuators (such as valves, pumps, etc.) for regulation, the production process is maintained in the best state, improving product quality and production efficiency.

(2) Energy and Power
Power system monitoring and control: In places such as power substations and power plants, it is used to build power monitoring systems, collect real-time operating data of power equipment (such as voltage, current, power, etc.), and monitor and analyze the operating status of the equipment. When abnormal situations are found, it timely sends alarm signals and takes corresponding control measures, such as tripping, switching to standby equipment, etc., to ensure the safe and stable operation of the power system.

New energy equipment control: In new energy fields such as wind power generation and solar power generation, it is used to control the operation of power generation equipment. For example, in wind turbines, VMIVME7698 can control the pitch angle and rotation speed of the wind turbine according to parameters such as wind speed and wind direction to achieve maximum efficiency in power generation, and at the same time perform safety protection control when the wind speed is too high to avoid equipment damage.

(3) Aerospace and National Defense
Ground test equipment: In the ground testing of aerospace equipment, as the control core of the test system, it is responsible for controlling the operation of test equipment, collecting test data, and conducting real-time analysis and processing of the data. For example, on the aircraft engine test bench, it controls various sensors to collect parameters such as temperature, pressure, and rotation speed of the engine, ensuring precise control of the test process and reliable collection of data.

Military equipment control systems: In military equipment such as tanks, armored vehicles, and warships, it is used to build vehicle-mounted or shipborne control systems to realize the control of functions such as navigation, fire control, and communication of the equipment. Its rugged structural design and reliable performance can meet the usage requirements of military equipment in complex environments.

Product Tags: VMIVME7698