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| 7.1.1 | MBPC5Fxx | Frontplatte und 8x Basisplatine für 5.25'' PC-Frontschacht | call | |
| 7.1.2 | MBE8G | Handgehäuse für 1-2*MBE8 | call | |
| 7.1.2 | MBE8GNT | Handgehäuse für 1-2*MBE8, mit Netzteil | call | |
| 7.1.2 | MBE8GAccu | Accumulator pack extern für MBE8GNT | call | |
| 7.1.2 | MBE16G | Tischgehäuse mit Aufstellfüssen für 1-2*MBE8, | call | |
| 7.1.2 | MBE32W | Wandgehäuse 19''Technik 3HE für 2-7 MBE8 | call | |
| 7.1.2 | MB19R-MBE8 | 19'' Rack Einschub 3HE für 4-12 MBE8 | call | |
| 7.1.2 | MBE16B | Anschlussbox für 1-2 MBE8 | call | |
| 7.1.2 | MBE8 | Basis-Europakarte für 1-8 Signalkonditionierungsmodule | call | |
| 7.1.2 | AP8Textool | Aufpreis 8 Textool-Nullkraftsockel für MBE8 | call | |
| 7.1.2 | APDCKFZ | Aufpreis für Weitbereichs DC/DC Wandler 8-15V | call | |
| 7.1.2 | MBES8L | Europaformat Frontplatte 9TE (7TE) 8x 4pol Lemosabuchsen | call | |
| 7.1.2 | MBES8M | Europaformat Frontplatte 9TE (7TE) 8x 4pol Mini DIN Buchsen | call | |
| 7.1.2 | MBES8T | Europaformat Frontplatte 9TE (7TE) 8 Thermosteckern | call | |
| 7.1.2 | MBES8P | Europaformat Frontplatte 9TE (7TE) 8x 4pol Klemmsteckern | call | |
| 7.1.2 | MBES8B | Europaformat Frontplatte 9TE (7TE) 8 BNC Buchsen | call | |
| 7.1.3 | VMDV4001 | Spannungsverstärkung, 10kHz, In ±10mV, Out ±5V | call | |
| 7.1.3 | VMDV4006 | Spannungsverstärkung, 10kHz, In ±100mV, Out ±5V | call | |
| 7.1.3 | VMDV4101 | Spannungsverstärkung, 10kHz, In ±1,0V, Out ±5V | call | |
| 7.1.3 | VMDV4106 | Spannungsverstärkung, 10kHz, In ±10,0V, Out ±5V | call | |
| 7.1.3 | VMDV50011 | AC True RMS 10Hz-5KHz, In ±10mV, Out 0-5V | call | |
| 7.1.3 | VMDV50026 | AC True RMS 10Hz-5KHz, In ±100mV, Out 0-5V | call | |
| 7.1.3 | VMDV5101 | AC True RMS 10Hz-5KHz, In ±1,0V, Out 0-5V, VMDV5101 | call | |
| 7.1.3 | VMDV5104 | AC True RMS 10Hz-5KHz, In ±10,0V, Out 0-5V,, VMDV5104 | call | |
| 7.1.3 | VMDI3201 | Stromschleife, Eingang 4..20mA Ausgang 0..5Volt | call | |
| 7.1.3 | VMDI3202 | Stromschleife, Eingang 0..20mA Ausgang 0..5Volt | call | |
| 7.1.3 | VMDTPT3403 | Pt100 Sensor, 2/3-Leiter, -50 - +250°C, 20mV/°C, Ausgang ±5V | call | |
| 7.1.3 | VMDTPT3404 | Pt100 Sensor, 2/3-Leiter, -50 - +100°C, 50mV/°C, Ausgang ±5V | call | |
| 7.1.3 | VMDTPT3405 | Pt100 Sensor, 2/3-Leiter, -50 - +50°C, 100mV/°C, Ausgang ±5V | call | |
| 7.1.3 | VMDTEK3702 | Thermoelement Typ K, 10Hz, -50 - +1000°C, 5mV/°C, Out ±5V | call | |
| 7.1.3 | VMDTEK3703 | Thermoelement Typ K, 10Hz, -50 - +500°C, 10mV/°C, Out ±5V | call | |
| 7.1.3 | VMDTEK3704 | Thermoelement Typ K, 10Hz, -50 - +250°C, 20mV/°C, Out ±5V | call | |
| 7.1.3 | VMDTEK3706 | Thermoelement Typ K, 10Hz, -50 - +100°C, 50mV/°C, Out ±5V | call | |
| 7.1.3 | VMDDMS3810 | Brückenverstärker, Brücke / DMS, 2,0mV/V, Ausgang ±5V | call | |
| 7.1.3 | VMDDMS3811 | Brückenverstärker, Brücke / DMS, 2,5mV/V, Ausgang ±5V | call | |
| 7.1.4.1 | MDV3001 | Spannungsverstärker, Eingang ±10mV DC-4Hz, Ausgang ±5V | call | |
| 7.1.4.1 | MDV3002 | Spannungsverstärker, Eingang ±20mV DC-4Hz, Ausgang ±5V | call | |
| 7.1.4.1 | MDV3003 | Spannungsverstärker, Eingang ±25mV DC-4Hz, Ausgang ±5V | call | |
| 7.1.4.1 | MDV3004 | Spannungsverstärker, Eingang ±50mV DC-4Hz, Ausgang ±5V | call | |
| 7.1.4.1 | MDV3005 | Spannungsverstärker, Eingang ±75mV DC-4Hz, Ausgang ±5V | call | |
| 7.1.4.1 | MDV3006 | Spannungsverstärker, Eingang ±100mV DC-4Hz, Ausgang ±5V | call | |
| 7.1.4.1 | MDV3007 | Spannungsverstärker, Eingang ±125mV DC-4Hz, Ausgang ±5V | call | |
| 7.1.4.1 | MDV3008 | Spannungsverstärker, Eingang ±200mV DC-4Hz, Ausgang ±5V | call | |
| 7.1.4.1 | MDV3009 | Spannungsverstärker, Eingang ±250mV DC-4Hz, Ausgang ±5V | call | |
| 7.1.4.1 | MDV3010 | Spannungsverstärker, Eingang ±300mV DC-4Hz, Ausgang ±5V | call | |
| 7.1.4.1 | MDV3011 | Spannungsverstärker, Eingang ±500mV DC-4Hz, Ausgang ±5V | call | |
| 7.1.4.1 | MDV3012 | Spannungsverstärker, Eingang ±750mV DC-4Hz, Ausgang ±5V | call | |
| 7.1.4.1 | MDV400x | Spannungsverstärker, Bereiche wie MDV30xx, DC-10KHz, Out ±5V | call | |
| 7.1.4.1 | MDV3101 | Modul präzise Spannungsverstärkung, In ±1,0V DC-4Hz, Out ±5V | call | |
| 7.1.4.1 | MDV3102 | Modul präzise Spannungsverstärkung, In ±2,0V DC-4Hz, Out ±5V | call |
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acceed news
It is a well-known fact that industrial applications require computing power at the edge of the network, where data is generated. Real-time AI systems for image processing, quality control, or autonomous machines need to evaluate large amounts of data directly on site. Bypassing cloud architectures saves time and bandwidth and reduces costs. However, edge applications have special requirements: high performance in limited space, constant availability despite dust and vibrations, and high tolerance to ambient temperatures. The new GT-92GC, a 19-inch rack system that combines GPU acceleration, multi-camera connectivity and a fanless chassis design, is tailored precisely to these requirements.
As AI models become increasingly efficient in industry, the demands on hardware in the field are also growing: GPU performance must be mobile, robust and maintenance-free in vehicles, production lines, energy plants and security systems. With the new GT-92RL-H controller, German distributor Acceed now has another edge platform in its portfolio that is designed precisely for this purpose: powerful, fanless, with high I/O density and, thanks to its robust system design (in accordance with EN 50155 / EN 45545), largely independent of infrastructure conditions.
With the growing demand for networked production, real-time data processing and decentralised intelligence in industrial environments, the requirements for embedded computers have changed significantly in recent years. Today, it is not just computing power that counts – energy efficiency, communication diversity and the ability to integrate into AI-supported processes are also key factors. The new Nuvo-11000 IPC series addresses precisely these requirements, positioning itself as a robust and scalable platform for industrial edge computing applications. All variants of the new series are now available with individual configurations from the German distributor Acceed.
Industrial automation has been undergoing change for some time now. While previous production systems relied on classic PLC and IPC architectures, the era of Industry 5.0 increasingly demands modular, AI-enabled platforms that not only perform control tasks but also enable data-intensive analyses and machine learning. With the Nuvo-10000GC, German distributor Acceed is introducing a new generation of industrial computer systems that meet precisely these requirements for edge AI applications – compact, powerful, expandable and robust.
Decentralised data processing plays an important role in the ongoing growth of digitalisation and automation in industry. Edge computing is becoming a key technological consideration, particularly when low latency, minimal downtime and high security standards are required. At the same time, there is a growing demand for high-performance artificial intelligence (AI) directly on the production line – without having to go via the cloud. This is exactly where the new NRU-170PPC panel PC from German distributor Acceed comes in: an industrial AI edge computer with an integrated screen that is designed for continuous operation under demanding conditions and sets new standards in computing power, robustness and system integration.