�ݺ�ߣshows by User: MENmicro

�ݺ�ߣshows by User: MENmicro / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: MENmicro / Thu, 28 Jun 2018 10:52:40 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: MENmicro 5 Things to Know about Conduction Cooling (CCA) /slideshow/5-things-to-know-about-conduction-cooling-cca-103429021/103429021 2018-065taconductioncoolingccaus-180628105240
Wherever electrical power is generated, there is also power dissipation, which heats up the components. This heat needs to be transferred away to prevent overheating. For semiconductors there is a maximum junction temperature, above which the semiconductor ceases to work. The right method to dissipate excess heat heavily depends on the mechanical and environmental conditions, as well as the field of application. Conduction Cooling is a way of transporting the heat without needing fans, and also providing a metal frame makes the solution even more rugged! ]]>
Wherever electrical power is generated, there is also power dissipation, which heats up the components. This heat needs to be transferred away to prevent overheating. For semiconductors there is a maximum junction temperature, above which the semiconductor ceases to work. The right method to dissipate excess heat heavily depends on the mechanical and environmental conditions, as well as the field of application. Conduction Cooling is a way of transporting the heat without needing fans, and also providing a metal frame makes the solution even more rugged! ]]> Thu, 28 Jun 2018 10:52:40 GMT /slideshow/5-things-to-know-about-conduction-cooling-cca-103429021/103429021 MENmicro@slideshare.net(MENmicro) 5 Things to Know about Conduction Cooling (CCA) MENmicro Wherever electrical power is generated, there is also power dissipation, which heats up the components. This heat needs to be transferred away to prevent overheating. For semiconductors there is a maximum junction temperature, above which the semiconductor ceases to work. The right method to dissipate excess heat heavily depends on the mechanical and environmental conditions, as well as the field of application. Conduction Cooling is a way of transporting the heat without needing fans, and also providing a metal frame makes the solution even more rugged! <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2018-065taconductioncoolingccaus-180628105240-thumbnail.jpg?width=120&height=120&fit=bounds" /> Wherever electrical power is generated, there is also power dissipation, which heats up the components. This heat needs to be transferred away to prevent overheating. For semiconductors there is a maximum junction temperature, above which the semiconductor ceases to work. The right method to dissipate excess heat heavily depends on the mechanical and environmental conditions, as well as the field of application. Conduction Cooling is a way of transporting the heat without needing fans, and also providing a metal frame makes the solution even more rugged!

5 Things to Know about Conduction Cooling (CCA) from MEN Micro

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1 5 Things to Know about FPGAs in Safety-Critical Environments /slideshow/5-things-to-know-about-fpgas-in-safetycritical-environments-99351508/99351508 2018-05-295tafpgassafety-critical-us-180529083739
Safety-critical systems must always function reliably. Essential functional safety can be realized with FPGA logic. And they have a few advantages making development safety-critical designs considerably easier.]]>
Safety-critical systems must always function reliably. Essential functional safety can be realized with FPGA logic. And they have a few advantages making development safety-critical designs considerably easier.]]> Tue, 29 May 2018 08:37:39 GMT /slideshow/5-things-to-know-about-fpgas-in-safetycritical-environments-99351508/99351508 MENmicro@slideshare.net(MENmicro) 5 Things to Know about FPGAs in Safety-Critical Environments MENmicro Safety-critical systems must always function reliably. Essential functional safety can be realized with FPGA logic. And they have a few advantages making development safety-critical designs considerably easier. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2018-05-295tafpgassafety-critical-us-180529083739-thumbnail.jpg?width=120&height=120&fit=bounds" /> Safety-critical systems must always function reliably. Essential functional safety can be realized with FPGA logic. And they have a few advantages making development safety-critical designs considerably easier.

5 Things to Know about FPGAs in Safety-Critical Environments from MEN Micro

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1 5 Things to Know about the F75P: a Vital Embedded Computer for Safety-Critical Applications /slideshow/5-things-to-know-about-the-f75p-a-vital-embedded-computer-for-safetycritical-applications-98689665/98689665 f75p-5ta-us-180525144113
The F75P is a SIL 4 certifiable embedded single board computer based on the CompactPCI PlusIO Standard. It comes with certificates from TÜV SÜD for hardware and software, saving cost and time to market during the development and certification process of a functional safe computer system.]]>
The F75P is a SIL 4 certifiable embedded single board computer based on the CompactPCI PlusIO Standard. It comes with certificates from TÜV SÜD for hardware and software, saving cost and time to market during the development and certification process of a functional safe computer system.]]> Fri, 25 May 2018 14:41:13 GMT /slideshow/5-things-to-know-about-the-f75p-a-vital-embedded-computer-for-safetycritical-applications-98689665/98689665 MENmicro@slideshare.net(MENmicro) 5 Things to Know about the F75P: a Vital Embedded Computer for Safety-Critical Applications MENmicro The F75P is a SIL 4 certifiable embedded single board computer based on the CompactPCI PlusIO Standard. It comes with certificates from TÜV SÜD for hardware and software, saving cost and time to market during the development and certification process of a functional safe computer system. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/f75p-5ta-us-180525144113-thumbnail.jpg?width=120&height=120&fit=bounds" /> The F75P is a SIL 4 certifiable embedded single board computer based on the CompactPCI PlusIO Standard. It comes with certificates from TÜV SÜD for hardware and software, saving cost and time to market during the development and certification process of a functional safe computer system.

5 Things to Know about the F75P: a Vital Embedded Computer for Safety-Critical Applications from MEN Micro

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1 5 Things about IP Classes in Rugged Embedded Computing /slideshow/5-things-about-ip-classes-in-rugged-embedded-computing/87052928 2018-02-015taip-classes-and-sealed-housings-in-embeddedus-180201163013
Far away from protected server rooms or automation lines in air-conditioned production halls, embedded computers need to withstand the toughest conditions in modern vehicles and moving machines, or in outdoor installations such as railway lines. This presentation answers questions on how to develop sealed enclosures according to the required IP classes, which materials should be selected and in which applications these requirements are particularly important. ]]>
Far away from protected server rooms or automation lines in air-conditioned production halls, embedded computers need to withstand the toughest conditions in modern vehicles and moving machines, or in outdoor installations such as railway lines. This presentation answers questions on how to develop sealed enclosures according to the required IP classes, which materials should be selected and in which applications these requirements are particularly important. ]]> Thu, 01 Feb 2018 16:30:13 GMT /slideshow/5-things-about-ip-classes-in-rugged-embedded-computing/87052928 MENmicro@slideshare.net(MENmicro) 5 Things about IP Classes in Rugged Embedded Computing MENmicro Far away from protected server rooms or automation lines in air-conditioned production halls, embedded computers need to withstand the toughest conditions in modern vehicles and moving machines, or in outdoor installations such as railway lines. This presentation answers questions on how to develop sealed enclosures according to the required IP classes, which materials should be selected and in which applications these requirements are particularly important. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2018-02-015taip-classes-and-sealed-housings-in-embeddedus-180201163013-thumbnail.jpg?width=120&height=120&fit=bounds" /> Far away from protected server rooms or automation lines in air-conditioned production halls, embedded computers need to withstand the toughest conditions in modern vehicles and moving machines, or in outdoor installations such as railway lines. This presentation answers questions on how to develop sealed enclosures according to the required IP classes, which materials should be selected and in which applications these requirements are particularly important.

5 Things about IP Classes in Rugged Embedded Computing from MEN Micro

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1 5 Things to Know About Conduction Cooling (CCA) /slideshow/5-things-to-know-about-conduction-cooling-cca-86408286/86408286 2018-01-195thingstoknowaboutconductioncoolingccaus-180119135723
Conduction Cooling Explained in 5 �ݺ�ߣs - Power Dissipation for Harsh Environments Wherever electrical power is generated, there is also power dissipation which heats up the components. This heat needs to be transferred away to prevent overheating. For semiconductors, there is a maximum junction temperature, above which the semiconductor ceases to work. The correct method of heat dissipation depends on the mechanical and environmental conditions, as well as the field of application. Conduction Cooling is a way of transporting the heat without needing fans, and adding a metal frame makes the solution even more rugged. ]]>
Conduction Cooling Explained in 5 �ݺ�ߣs - Power Dissipation for Harsh Environments Wherever electrical power is generated, there is also power dissipation which heats up the components. This heat needs to be transferred away to prevent overheating. For semiconductors, there is a maximum junction temperature, above which the semiconductor ceases to work. The correct method of heat dissipation depends on the mechanical and environmental conditions, as well as the field of application. Conduction Cooling is a way of transporting the heat without needing fans, and adding a metal frame makes the solution even more rugged. ]]> Fri, 19 Jan 2018 13:57:23 GMT /slideshow/5-things-to-know-about-conduction-cooling-cca-86408286/86408286 MENmicro@slideshare.net(MENmicro) 5 Things to Know About Conduction Cooling (CCA) MENmicro Conduction Cooling Explained in 5 �ݺ�ߣs - Power Dissipation for Harsh Environments Wherever electrical power is generated, there is also power dissipation which heats up the components. This heat needs to be transferred away to prevent overheating. For semiconductors, there is a maximum junction temperature, above which the semiconductor ceases to work. The correct method of heat dissipation depends on the mechanical and environmental conditions, as well as the field of application. Conduction Cooling is a way of transporting the heat without needing fans, and adding a metal frame makes the solution even more rugged. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2018-01-195thingstoknowaboutconductioncoolingccaus-180119135723-thumbnail.jpg?width=120&height=120&fit=bounds" /> Conduction Cooling Explained in 5 �ݺ�ߣs - Power Dissipation for Harsh Environments Wherever electrical power is generated, there is also power dissipation which heats up the components. This heat needs to be transferred away to prevent overheating. For semiconductors, there is a maximum junction temperature, above which the semiconductor ceases to work. The correct method of heat dissipation depends on the mechanical and environmental conditions, as well as the field of application. Conduction Cooling is a way of transporting the heat without needing fans, and adding a metal frame makes the solution even more rugged.

5 Things to Know About Conduction Cooling (CCA) from MEN Micro

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1 Rugged Connectivity - Networking Devices for IoT-Applications /slideshow/rugged-connectivity-networking-devices-for-iotapplications-83839734/83839734 kurz-webinarnetwork-devices-171211093634
MEN delivers a flexible range of Ethernet switches especially designed for use in extremely rugged environmental conditions, e.g. found in the rail and public transportation market. The NMxx family is built on a compact box PC format, coming with a rugged aluminum enclosure. This is not just for conduction cooling - turning the box into a maintenance-free device - but also protects the enclosed electronics, meeting requirements up to IP40.]]>
MEN delivers a flexible range of Ethernet switches especially designed for use in extremely rugged environmental conditions, e.g. found in the rail and public transportation market. The NMxx family is built on a compact box PC format, coming with a rugged aluminum enclosure. This is not just for conduction cooling - turning the box into a maintenance-free device - but also protects the enclosed electronics, meeting requirements up to IP40.]]> Mon, 11 Dec 2017 09:36:34 GMT /slideshow/rugged-connectivity-networking-devices-for-iotapplications-83839734/83839734 MENmicro@slideshare.net(MENmicro) Rugged Connectivity - Networking Devices for IoT-Applications MENmicro MEN delivers a flexible range of Ethernet switches especially designed for use in extremely rugged environmental conditions, e.g. found in the rail and public transportation market. The NMxx family is built on a compact box PC format, coming with a rugged aluminum enclosure. This is not just for conduction cooling - turning the box into a maintenance-free device - but also protects the enclosed electronics, meeting requirements up to IP40. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/kurz-webinarnetwork-devices-171211093634-thumbnail.jpg?width=120&height=120&fit=bounds" /> MEN delivers a flexible range of Ethernet switches especially designed for use in extremely rugged environmental conditions, e.g. found in the rail and public transportation market. The NMxx family is built on a compact box PC format, coming with a rugged aluminum enclosure. This is not just for conduction cooling - turning the box into a maintenance-free device - but also protects the enclosed electronics, meeting requirements up to IP40.

Rugged Connectivity - Networking Devices for IoT-Applications from MEN Micro

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1 4 Things to Know about Real-Time Ethernet Communication of Safe Train Control System menTCS /slideshow/4-things-to-know-about-realtime-ethernet-communication-of-safe-train-control-system-mentcs-82588984/82588984 2017-11-234thingstoknowaboutreal-timeethernetcommunicationofsafetraincontrolsystemmentcsen-171123143354
Especially in safety-critical applications real-time (RT) communication is a must. Ethernet networks come into the game when price is an issue and high-performance standardized protocols are needed. Fieldbusses used today are partly based on industrial real-time Ethernet variants with standardized safety protocols like Profinet, EtherCAT, Ethernet Powerlink, and others. The safe train control system family also uses a real-time Ethernet communication within the network. This piece gives answers to the following questions: 1: How is Communication within menTCS Organized? 2: Which RT Ethernet Standard is Used for menTCS? 3: Why EtherCAT for menTCS? 4: What are the Extension Possibilities for menTCS?]]>
Especially in safety-critical applications real-time (RT) communication is a must. Ethernet networks come into the game when price is an issue and high-performance standardized protocols are needed. Fieldbusses used today are partly based on industrial real-time Ethernet variants with standardized safety protocols like Profinet, EtherCAT, Ethernet Powerlink, and others. The safe train control system family also uses a real-time Ethernet communication within the network. This piece gives answers to the following questions: 1: How is Communication within menTCS Organized? 2: Which RT Ethernet Standard is Used for menTCS? 3: Why EtherCAT for menTCS? 4: What are the Extension Possibilities for menTCS?]]> Thu, 23 Nov 2017 14:33:54 GMT /slideshow/4-things-to-know-about-realtime-ethernet-communication-of-safe-train-control-system-mentcs-82588984/82588984 MENmicro@slideshare.net(MENmicro) 4 Things to Know about Real-Time Ethernet Communication of Safe Train Control System menTCS MENmicro Especially in safety-critical applications real-time (RT) communication is a must. Ethernet networks come into the game when price is an issue and high-performance standardized protocols are needed. Fieldbusses used today are partly based on industrial real-time Ethernet variants with standardized safety protocols like Profinet, EtherCAT, Ethernet Powerlink, and others. The safe train control system family also uses a real-time Ethernet communication within the network. This piece gives answers to the following questions: 1: How is Communication within menTCS Organized? 2: Which RT Ethernet Standard is Used for menTCS? 3: Why EtherCAT for menTCS? 4: What are the Extension Possibilities for menTCS? <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2017-11-234thingstoknowaboutreal-timeethernetcommunicationofsafetraincontrolsystemmentcsen-171123143354-thumbnail.jpg?width=120&height=120&fit=bounds" /> Especially in safety-critical applications real-time (RT) communication is a must. Ethernet networks come into the game when price is an issue and high-performance standardized protocols are needed. Fieldbusses used today are partly based on industrial real-time Ethernet variants with standardized safety protocols like Profinet, EtherCAT, Ethernet Powerlink, and others. The safe train control system family also uses a real-time Ethernet communication within the network. This piece gives answers to the following questions: 1: How is Communication within menTCS Organized? 2: Which RT Ethernet Standard is Used for menTCS? 3: Why EtherCAT for menTCS? 4: What are the Extension Possibilities for menTCS?

4 Things to Know about Real-Time Ethernet Communication of Safe Train Control System menTCS from MEN Micro

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1 5 Things to Know about Safety-Critical Applications in Aerospace /slideshow/5-things-to-know-about-safetycritical-applications-in-aerospace/81849063 2017-11-105thingsaboutsafetycriticalinaerospaceen-171110105756
A number of innovations and changes deliver new capabilities to aircraft operations. Modern aircraft are equipped with a multitude of electronic components. There is also a multitude of standards that must be fulfilled when designing an avionics hardware solution. Some questions may come to your mind, before designing a safety-critical aerospace system. ]]>
A number of innovations and changes deliver new capabilities to aircraft operations. Modern aircraft are equipped with a multitude of electronic components. There is also a multitude of standards that must be fulfilled when designing an avionics hardware solution. Some questions may come to your mind, before designing a safety-critical aerospace system. ]]> Fri, 10 Nov 2017 10:57:56 GMT /slideshow/5-things-to-know-about-safetycritical-applications-in-aerospace/81849063 MENmicro@slideshare.net(MENmicro) 5 Things to Know about Safety-Critical Applications in Aerospace MENmicro A number of innovations and changes deliver new capabilities to aircraft operations. Modern aircraft are equipped with a multitude of electronic components. There is also a multitude of standards that must be fulfilled when designing an avionics hardware solution. Some questions may come to your mind, before designing a safety-critical aerospace system. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2017-11-105thingsaboutsafetycriticalinaerospaceen-171110105756-thumbnail.jpg?width=120&height=120&fit=bounds" /> A number of innovations and changes deliver new capabilities to aircraft operations. Modern aircraft are equipped with a multitude of electronic components. There is also a multitude of standards that must be fulfilled when designing an avionics hardware solution. Some questions may come to your mind, before designing a safety-critical aerospace system.

5 Things to Know about Safety-Critical Applications in Aerospace from MEN Micro

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1 10 Frequently asked Questions about Safe Train Control System menTCS /slideshow/10-frequently-asked-questions-about-safe-train-control-system-mentcs-80699531/80699531 2017-10-1110questionsaboutmentcs-171011150957
Based on a completely new concept menTCS is an open and modular railway computer platform based exclusively on standard hardware and software. It is certifiable up to SIL 4 in all its single parts and complies with the EN 50155 and EN 50126, EN 50128, and EN 50129 railway standards. But what is the difference to other safety-critical rail systems? What do we mean, when we say menTCS is open and modular? Where can I use menTCS? Read our 10 Frequently asked Questions about Safe Train Control System menTCS to get a better understanding of our versatile computer platform for rolling-stock and wayside. ]]>
Based on a completely new concept menTCS is an open and modular railway computer platform based exclusively on standard hardware and software. It is certifiable up to SIL 4 in all its single parts and complies with the EN 50155 and EN 50126, EN 50128, and EN 50129 railway standards. But what is the difference to other safety-critical rail systems? What do we mean, when we say menTCS is open and modular? Where can I use menTCS? Read our 10 Frequently asked Questions about Safe Train Control System menTCS to get a better understanding of our versatile computer platform for rolling-stock and wayside. ]]> Wed, 11 Oct 2017 15:09:57 GMT /slideshow/10-frequently-asked-questions-about-safe-train-control-system-mentcs-80699531/80699531 MENmicro@slideshare.net(MENmicro) 10 Frequently asked Questions about Safe Train Control System menTCS MENmicro Based on a completely new concept menTCS is an open and modular railway computer platform based exclusively on standard hardware and software. It is certifiable up to SIL 4 in all its single parts and complies with the EN 50155 and EN 50126, EN 50128, and EN 50129 railway standards. But what is the difference to other safety-critical rail systems? What do we mean, when we say menTCS is open and modular? Where can I use menTCS? Read our 10 Frequently asked Questions about Safe Train Control System menTCS to get a better understanding of our versatile computer platform for rolling-stock and wayside. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2017-10-1110questionsaboutmentcs-171011150957-thumbnail.jpg?width=120&height=120&fit=bounds" /> Based on a completely new concept menTCS is an open and modular railway computer platform based exclusively on standard hardware and software. It is certifiable up to SIL 4 in all its single parts and complies with the EN 50155 and EN 50126, EN 50128, and EN 50129 railway standards. But what is the difference to other safety-critical rail systems? What do we mean, when we say menTCS is open and modular? Where can I use menTCS? Read our 10 Frequently asked Questions about Safe Train Control System menTCS to get a better understanding of our versatile computer platform for rolling-stock and wayside.

10 Frequently asked Questions about Safe Train Control System menTCS from MEN Micro

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1 Modular Train Control System menTCS /slideshow/modular-train-control-system-mentcs/80249618 kurz-webinarmentcsopen-platform-170928100145
menTCS is the first computer system ever in the history of the railway industry that separates the control electronics – i.e. the computer hardware – from the real control function – the application software.]]>
menTCS is the first computer system ever in the history of the railway industry that separates the control electronics – i.e. the computer hardware – from the real control function – the application software.]]> Thu, 28 Sep 2017 10:01:45 GMT /slideshow/modular-train-control-system-mentcs/80249618 MENmicro@slideshare.net(MENmicro) Modular Train Control System menTCS MENmicro menTCS is the first computer system ever in the history of the railway industry that separates the control electronics – i.e. the computer hardware – from the real control function – the application software. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/kurz-webinarmentcsopen-platform-170928100145-thumbnail.jpg?width=120&height=120&fit=bounds" /> menTCS is the first computer system ever in the history of the railway industry that separates the control electronics – i.e. the computer hardware – from the real control function – the application software.

Modular Train Control System menTCS from MEN Micro

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1 A25 – High-Performance VMEbus SBC with Intel Xeon D /slideshow/a25-highperformance-vmebus-sbc-with-intel-xeon-d/79486760 kurz-webinara25-170906131159
The A25 is a powerful multicore VMEbus board, based on Intel's Xeon D-1500 server CPU. The board is available in versions with 4, 8 or 16 cores and therefore provides a concentrated computing power. The 32 GB DDR4 memory and the scalability of the offered standard models make the board a reliable partner for high-performance applications.]]>
The A25 is a powerful multicore VMEbus board, based on Intel's Xeon D-1500 server CPU. The board is available in versions with 4, 8 or 16 cores and therefore provides a concentrated computing power. The 32 GB DDR4 memory and the scalability of the offered standard models make the board a reliable partner for high-performance applications.]]> Wed, 06 Sep 2017 13:11:59 GMT /slideshow/a25-highperformance-vmebus-sbc-with-intel-xeon-d/79486760 MENmicro@slideshare.net(MENmicro) A25 – High-Performance VMEbus SBC with Intel Xeon D MENmicro The A25 is a powerful multicore VMEbus board, based on Intel's Xeon D-1500 server CPU. The board is available in versions with 4, 8 or 16 cores and therefore provides a concentrated computing power. The 32 GB DDR4 memory and the scalability of the offered standard models make the board a reliable partner for high-performance applications. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/kurz-webinara25-170906131159-thumbnail.jpg?width=120&height=120&fit=bounds" /> The A25 is a powerful multicore VMEbus board, based on Intel's Xeon D-1500 server CPU. The board is available in versions with 4, 8 or 16 cores and therefore provides a concentrated computing power. The 32 GB DDR4 memory and the scalability of the offered standard models make the board a reliable partner for high-performance applications.

A25 – High-Performance VMEbus SBC with Intel Xeon D from MEN Micro

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1 5 Application Examples Using Wireless Communication in Harsh IoT Environments /slideshow/5-application-examples-using-wireless-communication-in-harsh-iot-environments-79321401/79321401 5applicationexamplesusingwirelesscommunicationinharshiotenvironments-170831124732
IoT systems for data-intensive computing in harsh industrial applications carry with them a range of reliability and security issues for the network components. Secure data transmission and the wireless transport of data is a precondition for any device to communicate within the mobile Internet of Things. Discover 5 Interesting Application Examples Using Wireless Communication in Harsh IoT Environments, and the standard components used. https://www.menmicro.com/competencies/connected-computing/ ]]>
IoT systems for data-intensive computing in harsh industrial applications carry with them a range of reliability and security issues for the network components. Secure data transmission and the wireless transport of data is a precondition for any device to communicate within the mobile Internet of Things. Discover 5 Interesting Application Examples Using Wireless Communication in Harsh IoT Environments, and the standard components used. https://www.menmicro.com/competencies/connected-computing/ ]]> Thu, 31 Aug 2017 12:47:32 GMT /slideshow/5-application-examples-using-wireless-communication-in-harsh-iot-environments-79321401/79321401 MENmicro@slideshare.net(MENmicro) 5 Application Examples Using Wireless Communication in Harsh IoT Environments MENmicro IoT systems for data-intensive computing in harsh industrial applications carry with them a range of reliability and security issues for the network components. Secure data transmission and the wireless transport of data is a precondition for any device to communicate within the mobile Internet of Things. Discover 5 Interesting Application Examples Using Wireless Communication in Harsh IoT Environments, and the standard components used. https://www.menmicro.com/competencies/connected-computing/ <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/5applicationexamplesusingwirelesscommunicationinharshiotenvironments-170831124732-thumbnail.jpg?width=120&height=120&fit=bounds" /> IoT systems for data-intensive computing in harsh industrial applications carry with them a range of reliability and security issues for the network components. Secure data transmission and the wireless transport of data is a precondition for any device to communicate within the mobile Internet of Things. Discover 5 Interesting Application Examples Using Wireless Communication in Harsh IoT Environments, and the standard components used. https://www.menmicro.com/competencies/connected-computing/

5 Application Examples Using Wireless Communication in Harsh IoT Environments from MEN Micro

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1 5 Techniques to Achieve Functional Safety for Embedded Systems /slideshow/5-techniques-to-achieve-functional-safety-for-embedded-systems-79124952/79124952 2017-08-245techniquestoachievefunctionalsafetyforembeddedsystems-170824142140
Failures of safety-critical electronic systems can result in loss of life, substantial financial damage or severe harm to the environment. Safe computer systems are typically used in avionics or railway applications requiring particularly high reliability. This also goes for the medical market, while industrial automation environments demand more and more functional safety as technology becomes readily available.]]>
Failures of safety-critical electronic systems can result in loss of life, substantial financial damage or severe harm to the environment. Safe computer systems are typically used in avionics or railway applications requiring particularly high reliability. This also goes for the medical market, while industrial automation environments demand more and more functional safety as technology becomes readily available.]]> Thu, 24 Aug 2017 14:21:40 GMT /slideshow/5-techniques-to-achieve-functional-safety-for-embedded-systems-79124952/79124952 MENmicro@slideshare.net(MENmicro) 5 Techniques to Achieve Functional Safety for Embedded Systems MENmicro Failures of safety-critical electronic systems can result in loss of life, substantial financial damage or severe harm to the environment. Safe computer systems are typically used in avionics or railway applications requiring particularly high reliability. This also goes for the medical market, while industrial automation environments demand more and more functional safety as technology becomes readily available. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2017-08-245techniquestoachievefunctionalsafetyforembeddedsystems-170824142140-thumbnail.jpg?width=120&height=120&fit=bounds" /> Failures of safety-critical electronic systems can result in loss of life, substantial financial damage or severe harm to the environment. Safe computer systems are typically used in avionics or railway applications requiring particularly high reliability. This also goes for the medical market, while industrial automation environments demand more and more functional safety as technology becomes readily available.

5 Techniques to Achieve Functional Safety for Embedded Systems from MEN Micro

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1 5 Things to Know about Safety and Security of Embedded Systems /slideshow/5-things-to-know-about-safety-and-security-of-embedded-systems-79017648/79017648 2017-08-21socialpost5thingsaboutsafety-security-170821115201
A secure system is one where the features are relatively inaccessible to unauthorized users, therefore the system is protected. A safe system needs to be secure, whereas, a secure system may not need to be safe depending on the application.]]>
A secure system is one where the features are relatively inaccessible to unauthorized users, therefore the system is protected. A safe system needs to be secure, whereas, a secure system may not need to be safe depending on the application.]]> Mon, 21 Aug 2017 11:52:01 GMT /slideshow/5-things-to-know-about-safety-and-security-of-embedded-systems-79017648/79017648 MENmicro@slideshare.net(MENmicro) 5 Things to Know about Safety and Security of Embedded Systems MENmicro A secure system is one where the features are relatively inaccessible to unauthorized users, therefore the system is protected. A safe system needs to be secure, whereas, a secure system may not need to be safe depending on the application. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2017-08-21socialpost5thingsaboutsafety-security-170821115201-thumbnail.jpg?width=120&height=120&fit=bounds" /> A secure system is one where the features are relatively inaccessible to unauthorized users, therefore the system is protected. A safe system needs to be secure, whereas, a secure system may not need to be safe depending on the application.

5 Things to Know about Safety and Security of Embedded Systems from MEN Micro

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1 5 Things to Know about Virtualization on Compact PCI Serial /slideshow/5-things-to-know-about-virtualization-on-compact-pci-serial/78662228 2017-08-08socialpost5thingsaboutvirtualization-g25a-170808114858
The modular architecture of the well-known CompactPCI Serial industry platform (PICMG CPCI-S) is an ideal prerequisite for the configuration of flexible open standard virtualization solutions. One of the most powerful server hardware components for virtualization systems is the 3U CompactPCI Serial embedded single-board computer G25A, featuring the Intel XEON D-1500 family (Broadwell DE) with up to 16 processor cores.]]>
The modular architecture of the well-known CompactPCI Serial industry platform (PICMG CPCI-S) is an ideal prerequisite for the configuration of flexible open standard virtualization solutions. One of the most powerful server hardware components for virtualization systems is the 3U CompactPCI Serial embedded single-board computer G25A, featuring the Intel XEON D-1500 family (Broadwell DE) with up to 16 processor cores.]]> Tue, 08 Aug 2017 11:48:58 GMT /slideshow/5-things-to-know-about-virtualization-on-compact-pci-serial/78662228 MENmicro@slideshare.net(MENmicro) 5 Things to Know about Virtualization on Compact PCI Serial MENmicro The modular architecture of the well-known CompactPCI Serial industry platform (PICMG CPCI-S) is an ideal prerequisite for the configuration of flexible open standard virtualization solutions. One of the most powerful server hardware components for virtualization systems is the 3U CompactPCI Serial embedded single-board computer G25A, featuring the Intel XEON D-1500 family (Broadwell DE) with up to 16 processor cores. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2017-08-08socialpost5thingsaboutvirtualization-g25a-170808114858-thumbnail.jpg?width=120&height=120&fit=bounds" /> The modular architecture of the well-known CompactPCI Serial industry platform (PICMG CPCI-S) is an ideal prerequisite for the configuration of flexible open standard virtualization solutions. One of the most powerful server hardware components for virtualization systems is the 3U CompactPCI Serial embedded single-board computer G25A, featuring the Intel XEON D-1500 family (Broadwell DE) with up to 16 processor cores.

5 Things to Know about Virtualization on Compact PCI Serial from MEN Micro

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1 5 Things to Know about MENs Rugged Industrial Ethernet Switch Family /slideshow/5-things-to-know-about-mens-rugged-industrial-ethernet-switch-family-78535733/78535733 2017-08-03socialpost5thingsaboutethswitches-170803125213
The portfolio of our Ethernet switch boards and devices has been designed for mission-critical applications in harsh and mobile environments. Being offered as CompactPCI or CompactPCI Serial board, as modular 19“ system or compact box switch – the scope of these components lies in the completion of our solution-oriented offering of rugged embedded computers for the rail and public transport, avionics, heavy vehicles, marine, medical, industrial automation, and power and energy markets.]]>
The portfolio of our Ethernet switch boards and devices has been designed for mission-critical applications in harsh and mobile environments. Being offered as CompactPCI or CompactPCI Serial board, as modular 19“ system or compact box switch – the scope of these components lies in the completion of our solution-oriented offering of rugged embedded computers for the rail and public transport, avionics, heavy vehicles, marine, medical, industrial automation, and power and energy markets.]]> Thu, 03 Aug 2017 12:52:13 GMT /slideshow/5-things-to-know-about-mens-rugged-industrial-ethernet-switch-family-78535733/78535733 MENmicro@slideshare.net(MENmicro) 5 Things to Know about MENs Rugged Industrial Ethernet Switch Family MENmicro The portfolio of our Ethernet switch boards and devices has been designed for mission-critical applications in harsh and mobile environments. Being offered as CompactPCI or CompactPCI Serial board, as modular 19“ system or compact box switch – the scope of these components lies in the completion of our solution-oriented offering of rugged embedded computers for the rail and public transport, avionics, heavy vehicles, marine, medical, industrial automation, and power and energy markets. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2017-08-03socialpost5thingsaboutethswitches-170803125213-thumbnail.jpg?width=120&height=120&fit=bounds" /> The portfolio of our Ethernet switch boards and devices has been designed for mission-critical applications in harsh and mobile environments. Being offered as CompactPCI or CompactPCI Serial board, as modular 19“ system or compact box switch – the scope of these components lies in the completion of our solution-oriented offering of rugged embedded computers for the rail and public transport, avionics, heavy vehicles, marine, medical, industrial automation, and power and energy markets.

5 Things to Know about MENs Rugged Industrial Ethernet Switch Family from MEN Micro

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1 BL51E – Rugged Box PC with Intel Apollo Lake I for Mobile Communication /slideshow/bl51e-rugged-box-pc-with-intel-apollo-lake-i-for-mobile-communication-77749084/77749084 kurz-webinarbl51e-170711130100
The BL51E is a rugged, fanless EN 50155 railway and E-Mark automotive box computer for in-vehicle functions like Passenger Information Systems (PIS), surveillance and storage based on Intel Atom E3900.]]>
The BL51E is a rugged, fanless EN 50155 railway and E-Mark automotive box computer for in-vehicle functions like Passenger Information Systems (PIS), surveillance and storage based on Intel Atom E3900.]]> Tue, 11 Jul 2017 13:01:00 GMT /slideshow/bl51e-rugged-box-pc-with-intel-apollo-lake-i-for-mobile-communication-77749084/77749084 MENmicro@slideshare.net(MENmicro) BL51E – Rugged Box PC with Intel Apollo Lake I for Mobile Communication MENmicro The BL51E is a rugged, fanless EN 50155 railway and E-Mark automotive box computer for in-vehicle functions like Passenger Information Systems (PIS), surveillance and storage based on Intel Atom E3900. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/kurz-webinarbl51e-170711130100-thumbnail.jpg?width=120&height=120&fit=bounds" /> The BL51E is a rugged, fanless EN 50155 railway and E-Mark automotive box computer for in-vehicle functions like Passenger Information Systems (PIS), surveillance and storage based on Intel Atom E3900.

BL51E – Rugged Box PC with Intel Apollo Lake I for Mobile Communication from MEN Micro

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1 5 Things to Know about the CompactPCI PlusIO Single Board Computer F26L /slideshow/5-things-to-know-about-the-compactpci-plusio-single-board-computer-f26l-77748470/77748470 5-things-about-f26l-us-170711124245
The F26L is an extremely low-power x86 PC based embedded computer for industrial automation and railway transportation, featuring the Intel Atom Apollo Lake-I (Goldmont architecture) with 2- and 4-core E3930, E3940 and E3950 processors and improved graphics performance. The SBC is compliant with the PICMG 2.30 standard and as such a perfect migration path from CompactPCI to CompactPCI Serial.]]>
The F26L is an extremely low-power x86 PC based embedded computer for industrial automation and railway transportation, featuring the Intel Atom Apollo Lake-I (Goldmont architecture) with 2- and 4-core E3930, E3940 and E3950 processors and improved graphics performance. The SBC is compliant with the PICMG 2.30 standard and as such a perfect migration path from CompactPCI to CompactPCI Serial.]]> Tue, 11 Jul 2017 12:42:45 GMT /slideshow/5-things-to-know-about-the-compactpci-plusio-single-board-computer-f26l-77748470/77748470 MENmicro@slideshare.net(MENmicro) 5 Things to Know about the CompactPCI PlusIO Single Board Computer F26L MENmicro The F26L is an extremely low-power x86 PC based embedded computer for industrial automation and railway transportation, featuring the Intel Atom Apollo Lake-I (Goldmont architecture) with 2- and 4-core E3930, E3940 and E3950 processors and improved graphics performance. The SBC is compliant with the PICMG 2.30 standard and as such a perfect migration path from CompactPCI to CompactPCI Serial. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/5-things-about-f26l-us-170711124245-thumbnail.jpg?width=120&height=120&fit=bounds" /> The F26L is an extremely low-power x86 PC based embedded computer for industrial automation and railway transportation, featuring the Intel Atom Apollo Lake-I (Goldmont architecture) with 2- and 4-core E3930, E3940 and E3950 processors and improved graphics performance. The SBC is compliant with the PICMG 2.30 standard and as such a perfect migration path from CompactPCI to CompactPCI Serial.

5 Things to Know about the CompactPCI PlusIO Single Board Computer F26L from MEN Micro

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1 5 Things to Know about the CB30 Rugged COM Express Safe Computer /slideshow/5-things-to-know-about-the-cb30-rugged-com-express-safe-computer/77574657 5-things-about-cb30c-com-170706120557
The CB30C is a safe Rugged COM Express module based on NXP/Qualcomm QorIQ (single-core P1013 or dual-core P1022) for safety-related applications meeting EN 50129 SIL 2, for rolling-stock or industrial control systems.]]>
The CB30C is a safe Rugged COM Express module based on NXP/Qualcomm QorIQ (single-core P1013 or dual-core P1022) for safety-related applications meeting EN 50129 SIL 2, for rolling-stock or industrial control systems.]]> Thu, 06 Jul 2017 12:05:57 GMT /slideshow/5-things-to-know-about-the-cb30-rugged-com-express-safe-computer/77574657 MENmicro@slideshare.net(MENmicro) 5 Things to Know about the CB30 Rugged COM Express Safe Computer MENmicro The CB30C is a safe Rugged COM Express module based on NXP/Qualcomm QorIQ (single-core P1013 or dual-core P1022) for safety-related applications meeting EN 50129 SIL 2, for rolling-stock or industrial control systems. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/5-things-about-cb30c-com-170706120557-thumbnail.jpg?width=120&height=120&fit=bounds" /> The CB30C is a safe Rugged COM Express module based on NXP/Qualcomm QorIQ (single-core P1013 or dual-core P1022) for safety-related applications meeting EN 50129 SIL 2, for rolling-stock or industrial control systems.

5 Things to Know about the CB30 Rugged COM Express Safe Computer from MEN Micro

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1 5 Things to Know about the Train Control System menTCS /slideshow/5-things-to-know-about-the-train-control-system-mentcs/76935773 5-things-about-mentcs-com-170614115116
menTCS is an open computer platform based upon modern IT standards that covers all safety-critical applications on a train and wayside. It is SIL 4 certifiable and comes with pre-certified hardware in combination with pre-certified software and corresponding certificates from TÜV SÜD, drastically reducing the time of the certification process.]]>
menTCS is an open computer platform based upon modern IT standards that covers all safety-critical applications on a train and wayside. It is SIL 4 certifiable and comes with pre-certified hardware in combination with pre-certified software and corresponding certificates from TÜV SÜD, drastically reducing the time of the certification process.]]> Wed, 14 Jun 2017 11:51:15 GMT /slideshow/5-things-to-know-about-the-train-control-system-mentcs/76935773 MENmicro@slideshare.net(MENmicro) 5 Things to Know about the Train Control System menTCS MENmicro menTCS is an open computer platform based upon modern IT standards that covers all safety-critical applications on a train and wayside. It is SIL 4 certifiable and comes with pre-certified hardware in combination with pre-certified software and corresponding certificates from TÜV SÜD, drastically reducing the time of the certification process. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/5-things-about-mentcs-com-170614115116-thumbnail.jpg?width=120&height=120&fit=bounds" /> menTCS is an open computer platform based upon modern IT standards that covers all safety-critical applications on a train and wayside. It is SIL 4 certifiable and comes with pre-certified hardware in combination with pre-certified software and corresponding certificates from TÜV SÜD, drastically reducing the time of the certification process.

5 Things to Know about the Train Control System menTCS from MEN Micro

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1 https://cdn.slidesharecdn.com/profile-photo-MENmicro-48x48.jpg?cb=1549376565 Since its inception, MEN Micro has focused on innovation, reliability and flexibility to develop standard and custom embedded boards and systems that employ the highest technology and innovations. The company provides a robust offering of highly reliable embedded computing and I/O solutions widely used in extreme environmental conditions found in industrial and safety-critical applications. MEN Micro offers more than 100 standard embedded boards and systems based on Intel and PowerPC with corresponding BIOS, BSP and driver software as well as a host of custom solutions. MEN Micro is the US subsidiary of MEN Mikro Elektronik in Germany. www.menmicro.com https://cdn.slidesharecdn.com/ss_thumbnails/2018-065taconductioncoolingccaus-180628105240-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/5-things-to-know-about-conduction-cooling-cca-103429021/103429021 5 Things to Know about... https://cdn.slidesharecdn.com/ss_thumbnails/2018-05-295tafpgassafety-critical-us-180529083739-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/5-things-to-know-about-fpgas-in-safetycritical-environments-99351508/99351508 5 Things to Know about... https://cdn.slidesharecdn.com/ss_thumbnails/f75p-5ta-us-180525144113-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/5-things-to-know-about-the-f75p-a-vital-embedded-computer-for-safetycritical-applications-98689665/98689665 5 Things to Know about...