Our Products
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| 7.3 | 5B37-B05 | 5B module Thermoelement B 0°..+1800°C in, 0-5V out | call | |
| 7.3 | 5B38-02 | 5B module DMS full bridge 3mV/V | call | |
| 7.3 | 5B38-05 | 5B module DMS full bridge 2mV/V | call | |
| 7.3 | 5B38-04 | 5B module DMS half bridge 3mV/V | call | |
| 7.3 | 5B39-01 | 5B module 4-20mA out, 0-5V in | call | |
| 7.3 | 5B39-02 | 5B module 4-20mA out, ±5V in | call | |
| 7.3 | 5B39-03 | 5B module 0-20mA out, 0-5V in | call | |
| 7.3 | 5B39-04 | 5B module 0-20mA out, ±5V in | call | |
| 7.3 | 5B40 | 5B module wide band, ±10mV in, ±5V out | call | |
| 7.3 | 5B41 | 5B module wide band,, ±1V in, ±5V out | call | |
| 7.3 | 5B47-J01 | 5B module Thermoelement J, 0°..+760°C in, 0-5V out | call | |
| 7.3 | 5B47-J02 | 5B module Thermoelement J, -100°..+300°C in, 0-5V out | call | |
| 7.3 | 5B47-J03 | 5B module Thermoelement J, 0°..+500°C in, 0-5V out | call | |
| 7.3 | 5B47-K04 | 5B module Thermoelement K, 0°..+1000°C in, 0-5V out | call | |
| 7.3 | 5B47-K05 | 5B module Thermoelement K, 0°..+500°C in, 0-5V out | call | |
| 7.3 | 5B47-T06 | 5B module Thermoelement T, -100°..+400°C in, 0-5V out | call | |
| 7.3 | 5B47-T07 | 5B module Thermoelement T, 0°..+200°C in, 0-5V out | call | |
| 7.3 | 5B47-E08 | 5B module Thermoelement E, 0°..+1000°C in, 0-5V out | call | |
| 7.3 | 5B47-R09 | 5B module Thermoelement R, 0°..+1750°C in, 0-5V out | call | |
| 7.3 | 5B47-S10 | 5B module Thermoelement S, 0°..+1000°C in, 0-5V out | call | |
| 7.3 | 5B47-S11 | 5B module Thermoelement S, 0°..+1800°C in, 0-5V out | call | |
| 7.3 | AX5B16 | Trägerplatine für max 16 5B Module | call | |
| 7.3 | AX7500 | 19'' rack mounting case for 5B modules 4units | call | |
| 8.1 | ARF8123AA | LoRaWAN field test device with high precision GPS |
229,00 € (w/o VAT) |
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| 8.1 | ARF8230AA-V3 | LoRaWAN pulse counter |
109,00 € (w/o VAT) |
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| 8.1 | ARF8230FA-V3 | LoRaWAN pulse counter for ATEX II 2 G D zones |
119,00 € (w/o VAT) |
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| 8.1 | ARF8230FA-B01-V3 | LoRaWAN gas counter with binder connector |
159,00 € (w/o VAT) |
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| 8.1 | ARF8230AA-CBL-V3 | LoRaWAN pulse counter 6-wire version |
129,00 € (w/o VAT) |
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| 8.1 | ARF8283AA | LoRaWAN air pressure difference monitoring |
169,00 € (w/o VAT) |
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| 8.1 | ARF8170BA | LoRaWAN dry contact sensor |
99,00 € (w/o VAT) |
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| 8.1 | ARF8180BA-V3 | LoRaWAN indoor/outdoor temperature sensor |
135,00 € (w/o VAT) |
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| 8.1 | ARF8190BA | LoRaWAN analog inputs transmitter (battery powered) |
109,00 € (w/o VAT) |
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| 8.1 | ARF8200AA | LoRaWAN analog inputs transmitter (external power supply) |
119,00 € (w/o VAT) |
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| 8.1 | ARF8240AA | LoRaWAN modbus transmitter (external power supply) |
229,00 € (w/o VAT) |
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| 8.1 | ARF8275AA | LoRaWAN smart building sensor |
109,00 € (w/o VAT) |
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| 8.1 | ARF8276AA | LoRaWAN smart building (luminosity) |
119,00 € (w/o VAT) |
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| 8.1 | NV-R206 | LoRa 1.0.2. Wireless Light Sensor | mail for offer | |
| 8.1 | NV-R206A | LoRa 1.0.2. Wireless Water Leak Detector | mail for offer | |
| 8.1 | NV-R206C | LoRa 1.0.2. Wireless Temperature and Humidity Sensor | mail for offer | |
| 8.1 | NV-R207 | LoRa 1.0.2. Outdoor Temperature/Humidity Sensor | mail for offer | |
| 8.1 | NV-R207C | LoRa 1.0.2. Temperature/Humidity Sensor low Temp. | mail for offer | |
| 8.1 | NV-R718F | LoRa 1.0.2. Temperature/Humidity Sensor | mail for offer | |
| 8.1 | NV-R718F2 | LoRa 1.0.2. 2-Gang Temperature Sensor | mail for offer | |
| 8.1 | NV-R311G | LoRa 1.0.2. 4-Gang Temperature Sensor | mail for offer | |
| 8.1 | NV-R311W | LoRa 1.0.2. Thermocouple J/K/T/E Type | mail for offer | |
| 8.1 | NV-R313A | LoRa 1.0.2. Vibration Sensor, Rolling Ball Type | mail for offer | |
| 8.1 | NV-R313MA | LoRa 1.0.2. 2-Gang Vibration Sensor Rolling Ball Type | mail for offer | |
| 8.1 | NV-RB11E | LoRa 1.0.2. Vibration Sensor, Spring Type | mail for offer | |
| 8.1 | NV-RA02A | LoRa 1.0.2. 2-Gang Vibration Sensor, Spring Type | mail for offer | |
| 8.1 | NV-RA02C | LoRa 1.0.2. Reed Switch Open/Close Detection Sensor | mail for offer |
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acceed news
Box PCs and embedded controllers often have to be installed in very small spaces or in tight control cabinets. The limited space is a challenge for heat dissipation. Inadequate temperature management can quickly lead to problems with performance and operational reliability. The new POC-700-FT controller, now available from German distributor Acceed, offers an efficient solution. The innovative design with the newly developed full-surface, flat heat sink maximises cooling efficiency via the housing surface and allows safe fanless operation in industrial environments.
Computers for the intelligent control of unmanned vehicles and stationary robots, also in industrial surroundings for a longer period with AI-based applications. However, manufacturers and constructors are faced with a special type of challenge when handling flying devices, e.g. drones which are applied in an industrial context. The weight of all components then plays a supporting role in the literal sense. Specifically tailored to such applications, the German distributor Acceed has now added the ultralight box computer FLYC-300 from the experienced manufacturer Neousys to its programme. With its flyweight of a mere 297 grams and an AI processor power of 100 TOPS, the controller is suitable for various applications in unmanned systems, in particular airborne vehicles, but also agricultural machinery and autonomous mobile robots of a smaller size, to name just a few further examples.
As their name already indicates, access points basically only have one simple task: the extension of the network via radio technology in an efficient manner with access points. However, within industrial surroundings, higher requirements must be met, including temperature tolerance, robustness and safety. Last but not least, the speed plays an important role for successful data communication in virtually all business fields. The German distributor Acceed has now incorporated the new high-speed access point IAP-1800AX from Planet into its programme, which with Wi-Fi 6, two radio frequencies (dual band 2.4 GHz, 5 GHz), a wide temperature range from -40 to +75 °C and five LAN interfaces in a stable metal casing is designated for professional use.
The constantly growing requirements of processor power are typical for industrial AI operations, robotics applications and automation architecture. Controlling, monitoring and evaluating processes, machines and systems assume large data quantities and complex algorithms. Their calculation requires specialist hardware and a high bandwidth for data communication. As a response to these challenges, Acceed has now added the new Edge AI platform DLAP-411-Orin to its programme.
Under the brand name ExpertDAQ, Acceed offers a comprehensive range of scalable and cost-efficient IO modules, for example the EX9200 series. The modules with analogue and digital inputs and outputs also serve to link distributed sensors, actuators, meters or relays in extensive areas or via the Internet. They are robust, energy-efficient and can be installed and commissioned without any great effort. The EX9250-MTCP is a digital I/O module with ten inputs and six outputs. Two Ethernet interfaces enable the linking of several modules. Here, the auto-bypass function ensures the further operation of the other modules in the chain if one fails.