The Sargas 2-Port is a compact edge computing reader operating on UHF/RAIN frequencies. Starting at $1000. See how it compares to Nextwaves open architecture.
Technical Specifications
Hardware Overview
The ThingMagic (JADAK) Sargas (2-Port) is an industrial-grade RFID device. It operates within the UHF/RAIN (global) range and supports the EPC Gen2V2, ISO 18000-63, Gen2X standard, making it widely deployed across enterprise logistics applications.
With an IP rating of IP52, it offers protection against specific environmental conditions typical in warehouses or retail backrooms. The reader utilizes 4.5-5.5V DC for continuous performance, while its stated maximum read rate peaks at 750.
Connectivity and Network Integration
In modern deployments, network integration is the most significant hurdle. This model offers RJ45, USB A/B, Micro-SD, 4 GPIO options for transferring data back to central systems.
However, a major bottleneck with legacy ThingMagic (JADAK) hardware is the heavy reliance on proprietary SDKs (like LLRP) or expensive third-party IoT middleware to process raw tag data into meaningful business intelligence.
The Nextwaves Alternative
If your engineering team is evaluating the ThingMagic (JADAK) Sargas (2-Port), the Nextwaves NR155 presents a vastly superior cloud-native architecture. Legacy systems inherently drive high capital expenditure through vendor lock-in and proprietary software ecosystems.
Nextwaves completely eliminates this barrier by providing a standard MQTT REST API directly on the device. Your software developers can integrate tag reading directly into your custom ERP or WMS backend in days instead of months, completely bypassing recurring middleware licensing fees.
Frequently Asked Questions
What is the Sargas (2-Port)?
The ThingMagic (JADAK) Sargas 2-Port is an embedded edge reader designed around the M6e Micro module. Operating on the UHF/RAIN (global) band, it is built to handle strict EPC Gen2V2, ISO 18000-63, Gen2X protocol standards within a compact footprint.
How much does this setup cost initially?
The unit retails around $1000. Comprehensive project budgeting must also account for two external RP-SMA antennas, required coaxial cabling, and the provision of a steady 4.5-5.5V DC power source.
Why should I choose Nextwaves instead?
Nextwaves provides embedded REST API and MQTT endpoints natively on the hardware. Software engineering teams bypass the proprietary Mercury API format and integrate JSON RFID events directly into modern cloud management systems.
Is the hardware durable enough for warehouses?
The aluminum enclosure weighs approximately 0.27 kg and measures 87 x 80 x 23.8 mm. This compact IP52-rated chassis is easily embedded inside smart cabinets or secondary industrial enclosures.
Does it support multiple network types?
Network integration utilizes RJ45, USB A/B, Micro-SD, 4 GPIO connections. The 4 hardware logic GPIO pins are frequently used to trigger scanning based on external photoelectric sensors or PLC relays.
Can my team install this internally?
Hardware mounting utilizes standard corner flange holes. To optimize detection, software teams must utilize custom C/C++ or Java routines via the Mercury API to finely tune power amplitude curves based on environmental reflections.
How does the remote management work?
Under optimal tuning parameters, the micro-module core is rated up to 750 tag reads per second. Remote administration is heavily reliant on JADAK's custom Universal Reader Assistant suite.
Do I need proprietary software to run it?
Typically, bridging data from the RJ45, USB A/B, Micro-SD, 4 GPIO ports into modern web stacks requires an intermediate middleware system or proprietary SDK implementation, which increases technical debt.
What warranty comes with the reader?
The manufacturer provides a standard one-year hardware warranty against component failure. Critical integration paths should often be supplemented by authorized VAR support agreements.
Are the antennas sold separately?
External antennas must be attached to the two RP-SMA terminal ports. Tuning the system dynamically across the UHF/RAIN (global) band is necessary to prevent FCC/ETSI non-compliance while maximizing read strength.