Sensor & Data Processing | Newstart Communication Technology

Data processing box

High Speed ADC/DAC FPGA Box.

A compact mixed-signal FPGA platform for teams that need clean conversion, deterministic latency, and practical host integration without over-sizing the bill of materials.

High speed data processing

High Speed ADC/DAC FPGA Box

Balanced performance for SDR and lab instrumentation: enough converter bandwidth for modern RF workflows, with a stable FPGA pipeline that is easy to integrate into existing Linux or Windows toolchains.

ADC channels4-ch, up to 250 MSPS, 14-bit
DAC channels2-ch, up to 500 MSPS, 14-bit
FPGA classMid-range Kintex/Arria equivalent
Host interfacePCIe Gen3 x8 + 10GbE
Clock/sync10 MHz ref, PPS, ext trigger
Typical fitRadar prototyping, IF capture, SDR testbench

NS SOM family

Four System-on-Modules. Application-matched silicon.

Industrial-grade SOMs co-designed with their carrier boards. Three Zynq-7000 variants (Z010/Z020/Z100) for ARM + FPGA embedded control and edge AI workloads, plus an Artix-7 variant (XC7A75T) for pure-FPGA wireless robot fleet control.

Entry tier — industrial gateways

NS_XC7Z010-CLG400 SOM

Zynq XC7Z010 dual ARM Cortex-A9 + 28 K logic cells in a compact stacking module. Sized for gateways that need real-time protocol conversion (Modbus, LoRa, BACnet, DALI) plus Linux networking on a single SoC.

SoCXC7Z010-1CLG400I, −40°C to +100°C
Logic / DSP28 K cells · 80 DSP48E1
ProcessorDual A9 667 MHz + NEON
Memory1 GB DDR3 + 4 GB eMMC + 16 MB QSPI
PL I/O98 HR signals on Banks 34/35
Target productsIoT gateway, BMS gateway, camera streamer

Mid tier — vision & control

NS_XC7Z020-CLG400 SOM

Zynq XC7Z020 with 3× the logic capacity of the Z010 — 85 K cells, 220 DSP48E1 and 4.9 Mb BRAM. Right-sized for real-time video processing, machine-vision inference and multi-axis motion control.

SoCXC7Z020-1CLG400I, −40°C to +100°C
Logic / DSP85 K cells · 220 DSP48E1
BRAM4.9 Mb (140 × 36 Kb blocks)
Memory1 GB DDR3 + 4 GB eMMC + 16 MB QSPI
Key workloadsPL H.264 encode, OpenCV+ZBar, galvo DAC
Target productsSecurity camera, access control, laser marker

High-end — dual-camera AI

NS_XC7Z100-FFG900 SOM

Zynq XC7Z100 with 444 K logic cells, 2,020 DSP slices, 26.5 Mb BRAM and 16 GTX lanes. Built for applications that a Z020 simply cannot run — dual MIPI CSI-2 CNN inference, on-device training capture, and OTA model updates without bitstream reflash.

SoCXC7Z100-2FFG900I, −40°C to +100°C
Logic / DSP444 K cells · 2,020 DSP48E1
BRAM26.5 Mb (755 × 36 Kb blocks)
Memory1 GB PS + 1 GB PL DDR3 + 4 GB eMMC
SerDes16 GTX lanes up to 12.5 Gb/s
Target productsPick & place vision, defect inference, OTA training

Image coming soon

Currently in production

Wireless robot control

NS_XC7A75T-FGG484 SOM

Xilinx Artix-7 XC7A75T pure-FPGA SOM in a compact stacking footprint. Purpose-built for wireless robot fleet control where a single operator commands many remote units in the field. Image will be published when production samples ship.

FPGAXC7A75T-FGG484 (Artix-7)
Logic / DSP75 K cells · 180 DSP48E1
BRAM3.78 Mb (105 × 36 Kb blocks)
Primary roleWireless command and control for robot fleets
AgricultureControl many field robots from one office — watering, branch trimming
IndustryRemote operation in hard-to-reach or hazardous sites
Underground drainageSewer and pipe inspection, cleaning robots
StatusIn production — sample image coming soon

Application fit

Pick the SOM by the product you’re shipping.

Every row below is a reference product we have either shipped or prototyped. Specs refer to the complete module + carrier pair; shared PS and PL IP is reused across variants so the porting cost is small.

Product	SOM	Key interfaces	FPGA differentiator
Industrial IoT Gateway	NS_XC7Z010	RS-485 Modbus, LoRa 433/868, ESP-01S Wi-Fi, 8-ch SPI ADC, 4-ch relay, 1-Wire	LoRa + Wi-Fi coexistence, analog ADC sampling, MQTT/OPC-UA bridging
BMS / Factory Gateway	NS_XC7Z010	BACnet/Modbus RS-485, ADE9000 3-phase metering, DALI-2 lighting, 4-ch HVAC relay, PWM	Energy metering + DALI + PWM on one carrier expansion
Camera Streaming Gateway	NS_XC7Z010	OV5640 DVP, ESP32 SPI Wi-Fi, KSZ9031 GbE, RTSP / HLS	DVP capture + wired + wireless streaming without daughter card
Smart Security Camera	NS_XC7Z020	OV5640 DVP, dual-stream 1080p + 480p, ONVIF / RTSP, NVR to eMMC	PL hardware video pipeline, HW resize/CSC, dual-stream encode
License Plate / QR Access	NS_XC7Z020	DVP camera, RS-485, Wiegand, IR illuminator, LCD, relay	PL image binarisation + ROI extraction, sub-200 ms decode-to-actuate
Laser Marking Controller	NS_XC7Z020	Dual SPI DAC (galvo XY), laser TTL, encoder, RS-485	PL real-time interpolation 1 MHz point rate, <1 µs laser jitter
Vision-Guided Pick & Place	NS_XC7Z100	Dual IMX219 MIPI CSI-2 4-lane, 2× encoder, 4× PWM, MES over GbE	FPGA MIPI D-PHY + INT8 CNN <15 ms, on-device training, OTA deploy
Agricultural Robot Fleet	NS_XC7A75T	Sub-GHz long-range RF, GNSS, multi-channel PWM (drive / pumps / cutters), telemetry uplink	PL packet engine for many-robot fleet coordination, deterministic command timing without OS jitter
Hazardous-Site Remote Control	NS_XC7A75T	Long-range RF link, isolated RS-485, video downlink, sealed connectors	FPGA-handled link layer for low-latency teleoperation in hard-to-reach industrial sites
Sewer / Pipe Inspection Robot	NS_XC7A75T	DVP camera, LED PWM, crawler motor drivers, tether or wireless link	PL video pipeline + motor control on single FPGA — compact electronics for in-pipe deployment

What ships in the box

Every board comes with the artifacts that actually unblock your team.

No “datasheet-only” deliveries. Each platform ships with engineering-grade materials your integration team can use on day one.

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Reference design files

Schematic (PDF+source), layout (ODB++), BOM, assembly drawing — for DFM reviews or cutting your own variant.

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Bring-up scripts & SDK

Python/C bring-up scripts, sample drivers, test harness. You can sample data into NumPy within 15 minutes of unboxing.

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Direct engineer contact

Named Newstart engineer for the first 90 days post-delivery — Slack, email, or call, no ticket queue.

From pixels and samples to real-time insight.