Ideal for precision analog measurements in manufacturing test, the MTM-DAQ-2 data acquisition (DAQ) module provides 16 channels of bi-polar differential inputs at 16-bit resolution with ranges as low as +/-64mV and as wide as +/-10.24V. Also included are two analog output (DAC) channels at 12-bit resolution with a range of +/-10.24V.
The LightWare SF23/B is a very low power LiDAR that can be used in energy critical applications where batteries or solar cells are used. Weighing 10g, it can run from voltages as low as 3.2V and has an average current consumption of less than 2mA when taking one reading per second. The measuring range of the SF23/B is 0.2 to 50 meters, and features a serial interface.
The LightWare SF22/C is a LiDAR API development kit that can be used to test out new applications before investing in more expensive devices. The measuring range is from 0.2m to 100m and is Class 1M eye safe. It is a small form factor, general purpose laser sensor that measures the distance to objects by ToF (time of flight) of a laser flash 10 to 100 times a second. The SF22/C can interface using serial, I2C and USB, and is tolerant to changes in background lighting conditions, wind and noise.
MTM-RCI-1 is a wiring adapter used to adapt external equipment to wireless MTM test solutions. Using MTM-RCI-1, customers can bridge external test tools to an MTM test point carrier board (TPCB) using wired ribbon cable, headers or terminal blocks.
MTM-DEV-2 is a breakout board for MTM systems, which allows wire-wraps or ribbon cables to be directly attached to MTM modules for quick deployment of MTM in wire-wrapped testers.
USB-C Universal Orientation Cable (UOC) is a specialized USB-C cable for use only with Acroname's programmable USB-C-Switch. The C38-USBC-UOC cable provides an orientation-agnostic USB-C connection required for USB-C-Switch software-based cable flip functionality.
YDLIDAR G4 is a 360º laser range scanner (LIDAR). With both a USB Type-C and PH2.0-5P bus interface, this sensor runs off of 5V and uses a brushless motor drive to scan at a sampling frequency of 9000 readings per second up to 16m (52.4ft) distances. YDLIDAR also has a user-friendly software interface and point cloud map to quickly get up and running with.
Precisely machined mounting bracket for LightWare LW20 cut from ¼ in thick high-grade aluminum. Attach a LightWare LW20 (not included) to your robot or drone, protecting the sensor from most collisions. Mount the stand directly on the chassis, or on a digital servo (not included) for area-sweeping collision detection.
LightWare 3D printed servo bracket specifically for LW20 sensor and Corona DS-919MG servo (not included).
Aluminum bracket kit to conveniently mount a LightWare SF11-C Laser Rangefinder to an ELEV-8 v3 Quadcopter. Easy to mount to holes already present in the ELEV-8 v3 chassis plate, precision machined aluminum helps protect the rangefinder and positions it facing downward for accurate distance and altitude measurements. Takes no space beneath the quadcopter's bottom chassis plate, leaving plenty of room for other accessories.
Precision-machined bracket mounts a LightWare SF10, SF11 or SF30 series laser rangefinder to your project. Made of high-grade aluminum, it conveniently positions and protects the rangefinder in both stationary and mobile applications. Assembly is quick and easy and all necessary mounting hardware is included.
The MTM system is designed to reduce the wiring complexity of manufacturing test systems. S73-MTM-DEV is a breakout board designed for development and test of embedded and high-level programs with common MTM modules. This kit includes all necessary cables to get started right out of the box.
Lightware Main Cable Type 1 is a 35cm long, single sided 7-pin female SM cable for SF10, SF11 and SF30 Lightware rangefinders.
DIN rail mounting hardware compatible with most Acroname products including S77-USBHUB-2X4, S79-USBHUB-3P and S85-USBC-SWITCH
A precision case for Devantech ETH008. Includes mounting holes for fixing to wall or back panel and includes all screws to mount the Devantech ETH008 relay board inside.
A precision case for Devantech ETH002 relay board. Includes screws for mounting the Devantech ETH002 relay module inside.
The ETH008 Ethernet relay board provides 8 voltage-free contact relay outputs with a current rating of up to 16A each. Controlled over TCP/IP via Ethernet.
The ETH002 Ethernet relay board provides 2 voltage-free contact relay outputs with a current rating of up to 16A each. Controlled over TCP/IP via Ethernet.
This Devantech USB relay board provides 8 voltage-free contact relay outputs with a current rating of up to 16A each. Controlled from any standard USB bus.
This Devantech USB relay board provides 2 voltage-free contact relay outputs with a current rating of up to 16A each. Powered and controlled from any standard USB bus, does not require any additional power.
Devantech USB relay board provides 8 voltage-free contact relay outputs with a current rating of up to 1A each. Controlled from any standard USB bus.
The USB-RLY82 USB controlled relay board provides 2 voltage-free contact relay outputs with a current rating of up to 16A each. Powered and controlled from the USB bus, this board features premium ultra low power 50mW coils.
The dS3484 Ethernet controlled relay board provides 8 digital switching I/O channels and 4 voltage-free contact relay outputs with a current rating of up to 16A each. Controlled over TCP/IP via Ethernet or USB for development.
The dS1242 Ethernet controlled relay board provides 4 digital switching I/O channels and 2 voltage-free contact relay outputs with a current rating of up to 16A each. Controlled over TCP/IP via Ethernet or USB for development.