Robustes drahtloses Kommunikationsmodul DT60M 802.11n

Neratec DT60M is a high-performance wireless communication module for industry and public transport.

  • Based on 802.11n WLAN technology
  • 2.4 GHz and 5 GHz operations, up to 300 Mbit/s
  • Configurable as access point or client
  • Advanced RF front end enables optimized operation nearby other WLAN/3G/4G networks
  • Small size: 37mm x 60mm
  • Operating temperature range: -30°C to 80°C
  • 2 x Fast Ethernet, USB, PCIe, GPIs, GPOs
  • 3.3VDC, typical power consumption < 2W
  • System-on-module, no driver level integration


Neratec DT60M is a robust highly integrated WLAN communication module, with optimized power to performance ratio. It allow OEMs to Wi-Fi enable devices used in an array of machine-to-machine (M2M) applications. Once the initial configuration is done, the device can be remotely managed using a standard Web browser or SNMP management tools.


IEEE 802.11-kompatibel – mit mehr Leistung

Neratec DT60M is compatible with the IEEE 802.11 standards, but designed for industrial environmental conditions. DT60M has a dual-stream 802.11n 2x2 MIMO radio based on industry leading Atheros technology integrated on board.

DT60M is optimized for low power consumption as well as for reliable communications and easy integration in the customer product. Like all Neratec WLAN products, DT60M is also developed in-house at Neratec and is part of long life cycle program.

Installationen und Applikationen

Neratec DT60M Wireless Module can be used as an independent product, when integrated together with a baseboard, which provides necessary connectors and protection elements required on product level. The module can be also directly integrated inside a customer product, thus providing hassle free wireless communications for various products.

Applications for Neratec DT60M include:


  • Industrial Automation & Control
  • Energy Management
  • Medical devices
  • Retail / Point of Sale products
  • Vehicle Telematics
  • Defence force communications
  • Material Handling & Logistics
  • Test & Measurement
  • Security & Access control

Technische Daten

Funktionalität Lösung für drahtlose Kommunikation in Industrie-Anwendungen
Betriebstemperatur Bereich -30...+80 °C
Speisung 3.3VDC, 1A peak; 500mA average
Unterstützte Funk-Standards IEEE 802.11b, 802.11g, 802.11a und 802.11n
Frequenzbereich 2,400..2.4835 GHz 5.150..5.350 GHz, 5.470..5.725 GHz, 5.725..5.850 GHz
Belegte Kanalbänder Gemäss IEEE 802.11
Unterstützte Datenraten 802.11b: 1Mbit/s, 2, 5.5 & 11Mbit/s DSSS 802.11g & 802.11a: 6Mbit/s, 9, 12, 18, 24, 36, 48 & 54 Mbit/s OFDM 802.11n 20MHz BW: 1 Nss: 65(72.2)Mbps maximal, 2 Nss: 130(144.44)Mbps maximal, 802.11n 40MHz BW: 1 Nss: 135(150)Mbps maximal, 2 Nss: 270(300)Mbps maximal
Funkleistung 2.4GHz (leitungsgeführt) Bis zu +15 dBm einstellbar pro Antenne
Funkleistung 5GHz (leitungsgeführt) Bis zu +20 dBm einstellbar pro Antenne
Funkschnittstellen 2 x MMCX Antenne Stecker, 2x2 MIMO (Option: 3x3 MIMO)
Empfindlichkeit des Empfängers 802.11ng HT20: -93 dBm (MCS0), -74 dBm (MCS7), -71 dBm (MCS15) 802.11na HT20: -93 dBm (MCS0), -74 dBm (MCS7), -71 dBm (MCS15) 802.11ng HT40: -90 dBm (MCS0), -71 dBm (MCS7), -68dBm (MCS15) 802.11na HT40: -90 dBm (MCS0), -71 dBm (MCS7), -68 dBm (MCS15)
MIMO Space Time Block Coding (STBC), RX Low Density Parity Check (LDPC), Maximum Likelihood Demodulation (MLD), Maximum Ratio Combining (MRC)
Sicherheit IIEEE 802.11i WPA2 (AES/TKIP), RADIUS Client
Ethernet Schnittstelle 2 x Fast Ethernet over the Board-to-Board connector Hirose DF40C
Weitere Schnittstellen USB 2.0 Host or Device modes, PCIe, GPIs and GPOs
Ethernet Routing / Networking Fixed fallback IP, IP aliases, MAC address control lists, Port forwarding, Routing, Multicast Routing, DHCP Server/Client, Multi BSSID, Roaming, NTP client, SNMP v2c and v3 with USM authentication and encryption support, SNMP Traps
Geräte Management SNMP, Limited HTTP/HTTPS with user authentication
Physikalische Dimensionen und Gewicht 37mm x 60mm x 6mm und 15g
Unterstützte Standards CE, FCC, IC, EN301 893 v1.7.1, EN300 328 V1.8.1, EN301 489-1/-17