TapNLink modules provide wireless interfaces for linking electronic systems to mobile devices and the Cloud. TapNLink connects directly to the target system's microcontroller. It integrates into and is powered by the target system. All TapNLink products are easily configured to control access by different types of users to data in the target system.
TapNLink facilitates rapid creation of Human Machine Interfaces (HMI) that run on Android, iOS and Windows mobiles. HMI apps are easily customized for different users and can be deployed and updated to keep pace with evolving system requirements and user needs.
TapNLink Wi-Fi modules can also be configured to connect the target system permanently to a wireless network and the Cloud. This enables permanent logging of target system data and alarms.
Features
Wireless Channels
Wi-Fi 802.11b/g/n
Bluetooth Low Energy (BLE 4.2)
Near Field Communication (NFC) Type5 tag (ISO/IEC 15693)
Supported Target Connections: Connects on 2 GPIO of the target microcontroller and supports:
Serial interface with Software Secure Serial Port (S3P) protocol
Serial interface with ARM SWD debug protocol.
UART with Modbus protocol
Mobile Platform Support
HTML5 web apps (Android, iOS)
API for Cordova (Android, iOS, Windows 10)
Java (Android, iOS native)
Auto-app generator for Android and iOS mobiles
Security
Configurable access profiles
Configurable, encrypted passwords
AES-128/256 module-level data encryption
Configurable secure pairing with NFC
Dimensions: 38 mm x 28 mm x 3 mm
Electrical Characteristics
Input voltage: 2.3V to 3.6 V
Low power consumption:
Standby: 100 µA
NFC Tx/Rx: 7 mA
Wi-Fi Rx: 110 mA
Wi-Fi Tx : 280 mA (802.11b)
Temperature Range: -20°C ~ +55°C
Compliance
CE (Europe), FCC (USA), IC (Canada)
REACH
RoHS
WEEE
Ordering Information
Base Part Number: TnL-FIW103
MOQ: 20 modules
TapNLink modules pre-qualified, pre-programmed and ready to configure.
IoTize Studio configuration and testing software
Software for HMI on mobile devices (iOS, Android, Windows 10)
IoTize Cloud MQTT infrastructure (open source)
For more information, check out the datasheet here.
The OWON SPS3081 Fanless Programmable DC Power Supply (120 W) delivers ultra-quiet, high-precision performance with 10 mV/1 mA accuracy and advanced heat dissipation for long-term reliability. Featuring comprehensive protection, a USB interface with SCPI support for remote control, and a 2.8-inch TFT LCD screen, it is the perfect choice for laboratories, electronics testing, and research.
Features
Fanless design: Ultra-quiet operation, reducing vibration noise and minimizing the potential failure risks associated with traditional cooling fans.
Excellent heat dissipation design: Ensures a controlled temperature rise, allowing long-term operation under full load conditions and extending internal component longevity.
Lightweight and ultra-thin design.
Output accuracy up to 10 mV/1 mA.
Supports List waveform editing and output, with four memory shortcut parameters for quick and convenient access.
Integrated protection features include overvoltage, overcurrent, overtemperature, and input undervoltage protection for enhanced safety.
Built-in discharge circuit prevents residual high voltage risks when the power is turned off.
USB communication interface with SCPI protocol support, enabling PC programming and remote control for simplified user management.
2.8-inch TFT LCD screen
Specifications
Model
SPS6051
SPS3081
Rated Output (0°C-40°C)
Voltage
0-61 V
0-31 V
Current
0-5.1 A
0-8.1 A
Power
150 W
120 W
Load Regulation
Voltage
≤30 mV
Current
≤20 mA
Power Regulation
Voltage
≤30 mV
Current
≤20 mA
Setting Resolution
Voltage
10 mV
Current
1 mA
Readback Resolution
Voltage
10 mV
Current
1 mA
Seting Accuracy (25°C ±5°C)
Voltage
≤0.05% ±20 mV
≤0.1% ±20 mV
Current
≤0.05% ±20 mA
≤0.2% ±20 mA
Readback Accuracy (25°C ±5°C)
Current
≤0.05% ±20 mV
≤0.1% ±20 mV
Voltage
≤0.05% ±20 mV
≤0.2% ±20 mA
Ripple/Noise
Voltage
≤30 mVp-p
≤30 mVp-p
Voltage
≤4 mVrms
≤5 mVrms
Current
≤10 mAp-p
≤30 mAp-p
Output temperature coefficient (0°C-40°C)
Voltage
100 ppm/°C
Current
200 ppm/°C
Readback temperature coefficient
Voltage
100 ppm/°C
Current
200 ppm/°C
Response Time (50-100% rated load)
≤1.0 ms
Storage
4 groups of data
Working Temperature
0-40°C
Display
2.8-inch color LCD display
Interface
USB
Dimensions (W x H x D)
82 x 142 x 226 mm
Weight
1.8 kg
Included
1x OWON SPS3081 Power Supply
2x Test leads
1x Power cord
1x Manual
Downloads
Datasheet
User Manual
Programming Manual
PC Software
Waveshare Core3S500E is an FPGA core board that features an XC3S500E device onboard supporting further expansion.
Features
Onboard 1x XCF04S
Integrated FPGA basic circuit, such as clock circuit
Onboard nCONFIG button, RESET button, 4x LEDs
All the I/O ports are accessible on the pin headers
Onboard JTAG debugging/programming interface
2.0 mm header pitch design, suitable for being plugged-in your application system
Downloads
Wiki
The starter kit for Jetson Nano is one of the best kits for beginners to get started with Jetson Nano. This kit includes 32 GB MicroSD card, 20 W adapter, 2-pin jumper, camera, and micro-USB cable.
Features
32 GB High-performance MicroSD card
5 V 4 A power supply with 2.1 mm DC barrel connector
2-pin jumper
Raspberry Pi camera module V2
Micro-B To Type-A USB cable with DATA enabled
This fiberglass outdoor antenna is optimized for receiving signals in the 868 MHz ISM band, supporting technologies such as Sigfox, LoRa, Mesh Networks, and Helium. The antenna consists of a half-wave dipole with 4.4 dBi gain, encapsulated inside a fiberglass radome with an aluminum mounting base.
Specifications
Frequency
868-870 MHz
Antenna type
Dipole 1/2 wave
Connector
N female
Installation type
Mast Diam 35-60 mm (mounting bracket included)
Gain
4.4 dBi
SWR
≤1.5
Type of Polarization
Vertical
Maximum power
10 W
Impedance
50 Ohms
Dimensions
52.5 cm
Tube diameter
26 mm
Base antenna
32 mm
Operating temperature
−30°C to +60°C
Included
ISM Band Antenna (868 Mhz)
Mast bracket (for installation on a 35 to 60 mm diameter mast)
The PeakTech 1265 is an affordable 30 MHz 2-channel digital storage oscilloscope with a high-resolution TFT color display and extensive additional functions. It has a sampling rate of up to 250 MS/s and convinces with its high quality and easy handling with the best price/performance ratio. To quickly display each incoming waveform, simply press the Autoset key and the oscilloscope itself searches for the best possible display. With Autoscale, however, the scaling of the time base can be adjusted in a user-friendly manner. This oscilloscope has a VGA output for displaying the oscilloscope display on an external monitor or projector.
Features
2-channel oscilloscope with 30 MHz analog bandwidth at max. 250 MS/s sampling rate
8 inch (20 cm) TFT color display with 800 x 600 pixels
LAN, USB host, USB device & VGA interface
Autoset function for user-friendly operation
Recording length of max. 10,000 points
Automatic measurement modes, XY mode and FFT function
Specifications
Bandwidth
30 MHz
Channels
2
Screen size (TFT)
8' (20 cm)
Resolution
800 x 600 Pixel
Display Type
Color-TFT
Sampling 1 CH
250 MS/s
Sampling 2 CH
125 MS/s
Hor. scale max.
100 s/div
Hor. scale min.
5 ns/div
Memory depth
10,000 Points
Rise Time
< 14 ns
Vert. resolution
8 Bit
Vert. scale max.
10 V/div
Vert. scale min.
2 mV/div
Interfaces
1x USB, 1x LAN, 1x VGA
Mains voltage
110/240 V AC; 50/60 Hz
Included
PeakTech 1265 Oscilloscope
USB cable
Software CD for Windows
Power cord
2 probes
BNC cable
Carrying case
Manual
Downloads
Software
Datasheet_DE-EN
Datasheet_FR
Datasheet_IT
Datasheet_ES
The PeakTech 1240 is a 60 MHz 2-channel digital storage oscilloscope with a high-resolution TFT color display and extensive additional functions. It has a sampling rate of up to 500 MS/s and convinces with its high quality and easy handling with the best price/performance ratio.
Features
High-resolution TFT color display with 800 x 600 pixels and 65536 colors
USB port for real-time data transmission or reading of internal memory
Saving of measured values and graphics directly onto the USB-stick
VGA-output port for external monitor
Autoset and autoscale function for easy operation
LAN connection for remote access via network
Internal memory of 10 million points per channel or 15 waveforms
20 automatic measurement modes and FFT function
PASS/FAIL function
Safety: EN 61010-1; CAT II
Accessories: 2 pcs. BNC cable, USB cable, software CD for Windows 2000/XP/Vista/7/8/10, power cable, 2 probes, carrying case and manual
Specifications
Bandwidth
60 MHz
Display
20 cm (8”) TFT with 65536 colors
Resolution
800 x 600 Pixel
Channel
2 CH
Sampling mode
Normal/peak detect/average
Sampling rate each Channel
250 MSa/s
Input coupling
AC, DC, GND
Input impedance
1 MΩ +/- 2 % in parallel with 10 pF +/- 5 pF
Input voltage
400 V DC or ACpp
Sensitivity
2 mV - 10 V/Skt/div.
Rise time
< 5,8 ns
Accuracy
+/- 3 %
Vertical resolutions
8 Bits (2 CH simultaneously)
Horizontal scale
5ns-100s/Skt./div
Sampling range
0,5 - 250 S/s
Trigger type
Edge/Video/Pulse/Slope
Trigger mode
Auto, Normal, Single
Trigger coupling
DC, AC, LF, HF
20 automat. measurements
peak-peak, cycle RMS, Vmax, Vmin, Vtop, Vbase, Vamp, overshoot, preshoot, rise time, fall time, +width, -width, +duty, -duty, delay A→B (rising), delay A→B(falling), frequency, period, min, max
Phase difference
+/- 3°
Record length
10.000.000 points/CH
Interfaces
USB Device 2.0, USB Host 2.0, VGA, LAN
Operation voltage
100~240 V ACrms / 50/60 Hz
Dimensions
340 x 155 x 70 mm
Weight
1.8 kg
Waveshare CoreEP4CE10 is an FPGA core board that features an EP4CE10F17C8N device onboard supporting further expansion.
Features
Onboard Serial Configuration Device EPCS16SI8N
Integrated FPGA basic circuit, such as clock circuit
Onboard nCONFIG button, RESET button, 4x LEDs
All the I/O ports are accessible on the pin headers
Onboard JTAG debugging/programming interface
2.00 mm header pitch design, suitable for being plugged-in your application system
Downloads
Wiki
The Waveshare Jetson Nano Development Kit, based on AI computers Jetson Nano (with 16 GB eMMC) and Jetson Xavier NX, provides almost the same IOs, size, and thickness as the Jetson Nano Developer Kit (B01), more convenient for upgrading the core module. By utilizing the power of the core module, it is qualified for fields like image classification, object detection, segmentation, speech processing, etc., and can be used in sorts of AI projects.
Specifications
GPU
128-core Maxwell
CPU
Quad-core ARM A57 @ 1.43 GHz
RAM
4 GB 64-bit LPDDR4 25.6 GB/s
Storage
16 GB eMMC + 64 GB TF Card
Video encoder
250 MP/s
1x 4K @ 30 (HEVC)
2x 1080p @ 60 (HEVC)
4x 1080p @ 30 (HEVC)
Video decoder
500 MP/s
1x 4K @ 60 (HEVC)
2x 4K @ 30 (HEVC)
4x 1080p @ 60 (HEVC)
8x 1080p @ 30 (HEVC)
Camera
1x MIPI CSI-2 D-PHY lanes
Connectivity
Gigabit Ethernet, M.2 Key E expansion connector
Display
HDMI
USB
1x USB 3.2 Gen 1 Type A
2x USB 2.0 Type A
1x USB 2.0 Micro-B
Interfaces
GPIO, I²C, I²S, SPI, UART
Dimensions
100 x 80 x 29 mm
Included
1x JETSON-NANO-LITE-DEV-KIT (carrier + Nano + heatsink)
1x AC8265 dual-mode NIC
1x Cooling fan
1x USB cable (1.2 m)
1x Ethernet cable (1.5 m)
1x 5 V/3 A power adapter (EU)
1x 64 GB TF Card
1x Card reader
Documentation
Wiki
The UPO1104 4-channel digital oscilloscope utilizes Ultra Phosphor 2.0 technology. It features a bandwidth of 100 MHz and a real-time sampling rate of up to 2 GSa/s. It supports an independent DVM module, offers extensive trigger and bus decoding functions, and supports full-memory hardware real-time decoding.
The UPO1104 can be widely used in embedded system design, instrumentation, consumer electronics, automotive electronics, field maintenance, education, and many other fields.
Features
Bandwidth: 100 MHz
Channels: 4
Sampling rate: 2 GSa/s
Vertical scale: 500μV/div-20 V/div
Low-base noise: <100μVrms
Maximum storage depth up to 56 Mpts
Waveform capture rate of up to 500,000 wfms/s
The hardware can be continuous waveform recording 120,000 frames in real time
Automatic measurement of 36 waveform parameters, the measurement range divides into screen and cursor area
Supports 7 digits hardware frequency meter measurement
DVM supports AC/DC TRMS (true virtual value) measurement
Waveform calculation function (FFT, add, subtract, multiply, divide, digital filter, logical operation and advanced operation)
1M sampling points to enhance FFT function, it supports frequency setting, waterfall curve, demodulation mode and marker measurement
Multiple trigger functions (edge, pulse width, video, slope, runt pulse, over-amplitude pulse, delay, timeout, duration, setup hold, Nth edge and code pattern)
Supporting RS232, I²C, SPI trigger
Innovative RS232, I²C, SPI full memory hardware for real-time decoding
Ultra phosphor display effect, 256 grayscale display
7-inch WVGA (800x480) TFT LCD
Multiple interfaces: USB Host, USB Device, LAN, EXT Trig, AUX Out (Trig Out, Pass/Fail, DVM)
Supporting waveform navigation, marker and segment
Supporting SCPI programmable standard command
Support WEB access and control
Dimensions: 306 x 138 x 107 mm
Weight: 2.45 kg
Specifications
Model
UPO1104
UPO1204
Bandwidth
100 MHz
200 Mhz
Analog channels
4
4
Real-time sampling rate
2 GSa/s
2 GSa/s
Rise time
≤3.5 ns
≤1.8 ns
Storage depth
56 Mpts
56 Mpts
Waveform capture rate
500,000 Wfms/s
500,000 Wfms/s
Included
1x UNI-T UPO1104 4-ch Phosphor Oscilloscope (100 MHz)
4x Passive probe (100 MHz)
1x Power cord
1x USB cable
1x Manual
Downloads
Datasheet
Software
The PeakTech 6192 is a linear regulated, dual-channel laboratory power supply that delivers reliable performance and enhanced safety, thanks to its integrated safety transformer. With adjustable outputs ranging from 0-60 V and 0-2.5 A DC, it is versatile and well-suited for various laboratory and workshop applications.
It features a current preselection function, allowing users to set the desired current before connecting the load. The four-digit blue LED displays clearly and precisely show voltage, current, and power values. The output button ensures that output is only activated after settings have been configured, preventing unintentional changes and increasing operational safety.
A temperature-controlled fan automatically responds to the device's internal temperature, providing efficient cooling and quiet operation. The unit is equipped with four potentiometers for quick and precise adjustment of current and voltage values. Additionally, a USB interface enables remote control and data readout via PC.
Features
Two outputs adjustable from 0-60 V and 0-2.5 A DC
Fixed voltage output 5 V/1 A DC
With USB interface and PC software
4-digit segment displays for current and voltage
Channels can be used independently, in series or in parallel
Overload protection and short-circuit proof
Temperature-controlled fan
High load stability and low residual ripple
Sturdy metal housing with carrying handle
Output of safety extra-low voltage (SELV)
Safety: EN-61010-1, EN 61558-2-6
Specifications
Adjustable DC Output voltage
2x 20...60 V
Rechargeable DC Output current
2x 0...2.5 A
Fixed value output
5 V/1 A
USB interface
Yes
Input voltage
104~127 V AC (60 Hz) or207~253 V AC (50 Hz) switchable
Grid stability (at 0-100% load)
CV ≤0.01% + 3 mVCC ≤0.2% + 3 mA
Load stability (at 0-100% load)
CV ≤0.05% + 5 mVCC ≤0.5% + 5 mA
Ripple (at 100% load)
CV ≤1 mVrmsCC ≤3 mArms
Overload protection
Constant current limiter circuit and short-circuit proof
Accuracy of the voltage display
±0.5% + 5 digits
Accuracy of the current display
±0.5% + 5 digits
Operating temperature
0°C ... +40°C (<90% RH)
Dimensions (W x H x D)
255 x 160 x 335 mm
Weight
approx. 9 kg
Included
1x PeakTech 6192 DC Power Supply
1x Power cable
1x USB cable
1x CD-ROM
1x Manual
Downloads
Datasheet
Interface protocol
Software
The reComputer J3010 is a compact and powerful edge AI device powered by the NVIDIA Jetson Orin Nano SoM, delivering an impressive 20 TOPS AI performance – up to 40 times faster than the Jetson Nano. Pre-installed with Jetpack 5.1.1, it features a 128 GB SSD, 4x USB 3.2 ports, HDMI, Gigabit Ethernet, and a versatile carrier board with M.2 Key E for WiFi, M.2 Key M for SSD, RTC, CAN, and a 40-pin GPIO header.
Applications
AI Video Analytics
Machine Vision
Robotics
Specifications
Jetson Orin Nano System-on-Module
AI Performance
reComputer J3010, Orin Nano 4 GB (20 TOPS)
GPU
512-core NVIDIA Ampere architecture GPU with 16 Tensor Cores (Orin Nano 4 GB)
CPU
6-core Arm Cortex-A78AE v8.2 64-bit CPU 1.5 MB L2 + 4 MB L3
Memory
4 GB 64-bit LPDDR5 34 GB/s (Orin Nano 4 GB)
Video Encoder
1080p30 supported by 1-2 CPU cores
Video Decoder
1x 4K60 (H.265) | 2x 4K30 (H.265) | 5x 1080p60 (H.265) | 11x 1080p30 (H.265)
Carrier Board
Storage
M.2 Key M PCIe (M.2 NVMe 2280 SSD 128 GB included)
Networking
Ethernet
1x RJ-45 Gigabit Ethernet (10/100/1000M)
M.2 Key E
1x M.2 Key E (pre-installed 1x Wi-Fi/Bluetooth combo module)
I/O
USB
4x USB 3.2 Type-A (10 Gbps)1x USB 2.0 Type-C (Device Mode)
CSI Camera
2x CSI (2-lane 15-pin)
Display
1x HDMI 2.1
Fan
1x 4-pin Fan Connector (5 V PWM)
CAN
1x CAN
Multifunctional Port
1x 40-Pin Expansion header
1x 12-Pin Control and UART header
RTC
RTC 2-pin, supports CR1220 (not included)
Power Supply
9-19 V DC
Mechanical
Dimensions
130 x 120 x 58.5 mm (with Case)
Installation
Desktop, wall-mounting
Operating Temperature
−10°C~60°C
Included
1x reComputer J3010 (system installed)
1x Power adapter (12 V / 5 A)
Downloads
reComputer J301x Datasheet
NVIDIA Jetson Devices and carrier boards comparisions
reComputer J401 schematic design file
reComputer J3010 3D file
The reComputer J1020 v2 is a compact edge AI device powered by the NVIDIA Jetson Nano 4 GB production module, delivering 0.5 TFLOPs of AI performance. It features a robust aluminum case with a passive heatsink and comes pre-installed with JetPack 4.6.1. The device includes 16 GB of onboard eMMC storage and offers 2x SCI, 4x USB 3.0, M.2 Key M, HDMI, and DP.
Applications
Computer Vision
Machine Learning
Autonomous Mobile Robot (AMR)
Specifications
Jetson Nano 4 GB System-on-Module
AI Performance
Jetson Nano 4 GB (0.5 TOPS)
GPU
NVIDIA Maxwel architecture with 128 NVIDIA CUDA cores
CPU
Quad-core ARM Cortex-A57 MPCore processor
Memory
4 GB 64-bit LPDDR4 25.6 GB/s
Video Encoder
1x 4K30 | 2x 1080p60 | 4x 1080p30 | 4x 720p60 | 9x 720p30 (H.265 & H.264)
Video Decoder
1x 4K60 | 2x 4K30 | 4x 1080p60 | 8x 1080p30 | 9x 720p60 (H.265 & H.264)
Carrier Board
Storage
1x M.2 Key M PCIe
Networking
Ethernet
1x RJ-45 Gigabit Ethernet (10/100/1000M)
I/O
USB
4x USB 3.0 Type-A1x Micro-USB port for device mode
CSI Camera
2x CSI (2-lane 15-pin)
Display
1x HDMI Type A; 1x DP
Fan
1x 4-pin Fan Connector (5 V PWM)
CAN
1x CAN
Multifunctional Port
1x 40-Pin Expansion header
1x 12-Pin Control and UART header
Power Supply
DC 12 V/2 A
Mechanical
Dimensions
130 x 120 x 50 mm (with Case)
Installation
Desktop, wall-mounting
Operating Temperature
−10°C~60°C
Included
reComputer J1020 v2 (system installed)
12 V/2 A power adapter (with 5 interchangeable adapter plugs)
Downloads
reComputer J1020 v2 datasheet
reComputer J1020 v2 3D file
Seeed NVIDIA Jetson Product Catalog
NVIDIA Jetson Device and Carrier Boards Comparison
The PeakTech 5620 is a professional thermal imaging camera with a high thermal resolution of 384x288 thermal image points and a variety of excellent features for work in building thermography or industrial use.
In addition to the pure thermal image display, this new development also offers a PIP (picture-in-picture) display, a real image camera or a fusion function in which the contours of the real image recording are combined with the thermal image in order to ensure an even better display.
All of the image modes mentioned can also be used for video recording, which also enables audio recordings for the respective video.
The many functions are controlled via push buttons on the device, but also via the touch screen function of the color TFT display.
All thermal images can be opened and evaluated using the enclosed software, with subsequent changes, e.g. can be done on the pallet selection.
Features
Professional thermal imaging technology
3.5" touchscreen and graphic menu navigation
Thermal image resolution of 384x288 pixels
High temperature measuring range up to +550°C
High quality thermal image sensor with high temperature sensitivity
Fast thermal imaging with 25 Hz
Seven color palettes (Iron, Rainbow, White, Black ...)
Photo and video recordings with audio commentary
WiFi, USB and Bluetooth interfaces
IP 54 protected against dust and splash water
Accessories: Hard case, 2x Li-Po battery, charger, carrying strap, connection cable, software and instructions
Specifications
Thermal Resolution
384 x 288 Pixel
Temperature Range
-20°C … 550°C (-4°F … 1022°F), 0,1° Resolution
Accuracy
±2% (±2°C)
Display
3.5" Touchscreen TFT
Thermal Sensivity
<40 mK
Field of View (FOV)
37,2°x 28,5°
Pixel Pitch
17 µm
IFOV
1.7 mrad
Wave Length
8 ... 14 µm
Emissivity
0.01~1.0
Image Frequency
25 Hz
Storage
Micro SD (64 GB)
Data Interface
USB, WiFi, Bluetooth
Operation voltage
5000 mAh / 3.7 V Li-Ion
Dimensions
100 x 244 x 104 mm
Weight
approx. 660 g
The Arduino Pro Portenta Cat. M1/NB IoT GNSS Shield allows you to enhance the connectivity features of your Portenta H7 applications. The shield leverages a Cinterion TX62 wireless module by Thales, designed for highly efficient, low-power IoT applications to deliver optimized bandwidth and performance.
The Portenta Cat. M1/NB IoT GNSS Shield combines with the strong edge computing power of the Portenta H7 to enable the development of asset tracking and remote monitoring applications in industrial settings, as well as in agriculture, public utilities and smart cities. The shield offers cellular connectivity to both Cat. M1 and NB-IoT networks with the option to use eSIM technology. Easily track your valuables – across the city or worldwide – with your choice of GPS, GLONASS, Galileo or BeiDou.
Features
Change connectivity capabilities without changing the board
Add NB-IoT, CAT. M1 and positioning to any Portenta product
Possibility to create a small multiprotocol router (WiFi - BT + NB-IoT/CAT. M1)
Greatly reduce communication bandwidth requirements in IoT applications
Low-power module
Compatible also with MKR boards
Remote Monitoring
Industrial and agricultural companies can leverage the Portenta Cat. M1/NB IoT GNSS Shield to remotely monitor gas detectors, optical sensors, machinery alarm systems, biological bug traps and more.
Technology providers providing smart city solutions can compound the power and reliability of the Portenta H7 with the Portenta Cat. M1/NB IoT GNSS Shield, to connect data and automate actions for a truly optimized use of resources and enhanced user experience.
Asset Monitoring
Add monitoring capabilities to any asset by combining the performance and edge computing features of the Portenta family boards. The Portenta Cat. M1/NB IoT GNSS Shield is ideal to monitor valuable goods and also for monitoring industrial machinery and equipment.
Specifications
Connectivity
Cinterion TX62 wireless module; NB-IoT - LTE CAT.M1; 3GPP Rel.14 Compliant Protocol LTE Cat. M1/NB1/NB2; UMTS BANDS: 1 / 2 / 3 / 4 / 5 / 8 / 12(17) / 13 / 18 / 19 / 20 / 25 / 26 / 27 / 28 / 66 / 71 / 85; LTE Cat.M1 DL: max. 300 kbps, UL: max. 1.1 Mbps; LTE Cat.NB1 DL: max. 27 kbps, UL: max. 63 kbps; LTE Cat.NB2 DL: max. 124 kbps, UL: max. 158 kbps
Short messaging service (SMS)
Point-to-point mobile terminated (MT) and mobile originated (MO) Text Mode; Protocol Data Unit (PDU) Mode
Localization support
GNSS capability (GPS/BeiDou/Galileo/GLONASS)
Other
Embedded IPv4 and IPv6 TCP/IP stack access; Internet Services: TCP server/client, UDP client, DNS, Ping, HTTP client, FTP client, MQTT client Secure Connection with TLS/DTLS Secure boot
Dimensions
66 x 25.4 mm
Operating temperature
-40° C to +85° C (-104° F to 185°F)
Downloads
Datasheet
Schematics
The CS Mount Lens (3 MP, 6 mm) is designed for use with the Raspberry Pi HQ Camera Module, delivering sharp, detailed imaging for various applications.
The single backlit button is a simple mechanical switch that comes with an LED inside. When you press the button, the circuit is completed, driving your pin high or low. Use the embedded LED to make a glowing power icon, logo , or whatever suits your fancy.
Features
Press durability: Up to 10,000 times pressing under 5lbf (22.24 N)
LED Voltage: 5 V
Component: 2" x 3" Individual (5,08 x 7,62 cm)
Button Size: 1" radius circle (2,54 cm)
Double Backlit User Interface: The dual backlit button is just like the single backlit button, but twice the fun! Use this component when you need to operate something up and down, or right to left. Using cut-out vinyl, you can create icons and stickers on fabric that show your users button functionality.
Features
Component: 4.6 x 6.3"
Individual Button Size: 1" radius circle
Press Durability: Up to 10,000 presses under 5lbf
LED Voltage: 5 V
Portenta HAT Carrier is a reliable and robust carrier that transforms Portenta X8 into an industrial single board computer compatible with Raspberry Pi HATs and cameras. It is ideal for multiple industrial applications such as building automation and machine monitoring.
Compatible also with Portenta H7 and Portenta C33, Portenta HAT Carrier provides easy access to multiple peripherals – including CAN, Ethernet, microSD and USB – and further extends any Portenta application.
It is great for prototyping and ready for scaling up, it extends the features found on a typical Raspberry Pi Model B. Debug quickly with dedicated JTAG pins and keeps heat manageable under intense workloads with a PWM fan connector. Control actuators or read analog sensors via the additional 16x analog I/Os. Add industrial machine vision solutions to any project by leveraging the onboard camera connector.
Features
Add Raspberry Pi HATs to your Portenta projects
Quickly access CAN, USB, and Ethernet peripherals
Leverage onboard MicroSD card to log data
Enjoy simple debugging through the onboard JTAG pins
Easily control actuators and read sensors via 16x analog I/Os
Leveraging the onboard camera connector for machine vision
Portenta takes you from prototype to high-performance
Portenta HAT Carrier offers you a frictionless Linux prototyping experience and unlocks the ability for integrated real-time MCU solutions. Portenta HAT Carrier extends Portenta SOMs for faster, easier and more efficient testing for your ideas while also ensuring the capabilities and industrial-grade performances the Portenta range is known for.
Extend the Raspberry Pi ecosystem for commercial applications
Combine the ease of use, accessibility and incredible support from both the Arduino and Raspberry Pi communities for your next project with the carrier designed to combine and extend MPU and MCU applications for the development of advanced commercial solutions.
Specifications
Connectors
High-density connectors compatible with Portenta products
1x USB-A female connector
1x Gigabit Ethernet connector (RJ45)
1x CAN FD with onboard transceiver
1x MIPI Camera connector
1x MicroSD card slot
1x PWM fan connector
40-pin header connector allowing compatibility with Raspberry Pi HATs
16-pin analog header connectors, including:
8x analog inputs
1x GPIO
1xUART without flow control
2x PWM pins
1x LICELL pin for Portenta's RTC power
Interfaces
CAN FD
UART
SAI
ANALOG
GPIO
SPI
I²C
I²S
PWM
Debugging
Onboard 10x pin 1.27 mm JTAG connector
Power
From onboard screw terminal block allowing:
7-32 V power supply, powering both the carrier and the connected Portenta
5 V power supply
From USB-C on Portenta
From 5 V on 40-pin header connector
Dimensions
85 x 56 mm
Downloads
Datasheet
Schematics
The unPhone is an open-source IoT development platform powered by the ESP32S3 microcontroller. It features integrated LoRa, Wi-Fi, and Bluetooth connectivity, a touchscreen, and a LiPo battery, offering a robust and versatile solution for IoT development. Its compatibility with Adafruit's FeatherWing standard enables easy expansion, making it an ideal choice for educators, makers, and developers seeking a flexible and user-friendly platform.
Features
ESP32S3 microcontroller (with 8 MB flash and 8 MB PSRAM)
LoRaWAN licence-free radio communication (plus the ESP32's excellent wifi and bluetooth support)
3.5" (320 x 480) LCD capacitive touchscreen for easy debugging and UI creation
IR LEDs for surreptitiously switching the cafe TV off
1200 mAh LiPo battery with USB-C charging
Vibration motor for notifications
Compass/Accelorometer
A robust case
SD card slot
Power and reset buttons
Programmable in C++ or CircuitPython
Expander board that supports two Featherwing sockets and a prototyping area
Open source firmware compatible with the Arduino IDE, PlatformIO and Espressif's IDF development framework
Included
unPhone (assembled)
Expander board
FPC cable (to link the expander board to unPhone)
Self adhesive mounts for the expander board
Code Examples
C++ library
Kick the tyres on everything in the box
The main LVGL demo
CircuitPython
Support forum
Textbook (especially chapter 11)
The PeakTech 6193 is a linear regulated 2-channel laboratory power supply with 0-30 V/0-5 A DC output. Its integrated safety transformer ensures reliable operation and high safety standards for lab and workshop use.
Key features include current preselection for safe setup, four-digit blue LED displays for voltage, current, and power, and an Output On/Off button to prevent accidental changes. The temperature-controlled fan provides efficient and quiet cooling.
With four precision potentiometers, output values can be adjusted quickly and accurately. A USB interface enables remote control and data readout via PC, making it ideal for versatile and automated applications.
Features
Two outputs adjustable from 0-30 V and 0-5 A DC
Fixed voltage output 5 V/1 A DC
With USB interface and PC software
4-digit segment displays for current and voltage
Channels can be used independently, in series or in parallel
Overload protection and short-circuit proof
Temperature-controlled fan
High load stability and low residual ripple
Sturdy metal housing with carrying handle
Output of safety extra-low voltage (SELV)
Specifications
Channels
2
Display Type
Segment
Output Voltage
0-30 V DC
Output Current
0-5 A
Input voltage
115-230 VAC 50/60 Hz
Auxillary output
5 V DC
Cooling
Active
Included
1x PeakTech 6193 DC Power Supply
1x Power cable
1x USB cable
1x CD-ROM
1x Manual
Downloads
Datasheet
Software
Interface Protocol
