Field test instruments and fusion splicers for network installers and operators.
102 products in this department
Browse the departmentLaboratory instrumentation for photonics, laser technology and R&D.
226 products in this department
Browse the departmentFiber-optic sensing systems: DAS, DTS, DSS, FBG and OFDR.
84 products in this department
Browse the departmentEye tracking, fNIRS, EEG and biometrics for science and business.
35 products in this department
Browse the departmentHome » Products » Research & Scientific Instruments » Biometrics » Dynamometry (Force & Pressure) » BioNomadix 2Ch Wireless Heel-Toe Strike Transmitter+Receiver
Transducer for wireless recording of heel and toe strike activity, includes a Heel/Toe Strike sensor and an adapter for communicating with the wireless transmitter, which can be conveniently strapped to the ankle.
Transducer for wireless recording of heel and toe strike activity, includes a Heel/Toe Strike sensor and an adapter for communicating with the wireless transmitter, which can be conveniently strapped to the ankle.
Biomechanics, Neuromarketing, Gait analysis
Telemetry data is transmitted at a rate of 2000 Hz, ensuring ultra-high waveform resolution at the receiver. The system features internal, optional Highpass and Lowpass filters that compensate for possible hand-movement artifacts.
The module emulates a classic “wired” connection to the computer, while providing the full benefits of a Wearable system:
Body-worn mounting: The transmitter can be easily attached to the patient’s wrist using the included flexible Velcro strap, or in the dedicated BioNomadix Shirt.
Noise immunity (CMRR): Because the device is battery-powered and isolated from the mains (no 50/60 Hz power cables on the patient), the common-mode rejection ratio is extremely high. Notch Filters are usually not required at all!
Safety: No physical contact between the patient’s equipment and the fixed power installation minimizes any risk of electric shock.
BioNomadix Strike Transmitter, MP Series
The BIOPAC telemetry system consists of 3 real-time connected modules that keep the signal crystal-clear from the patient all the way to the finished chart on screen.
Worn on the subject's body. It records the physiological signal directly from the body at 2000 Hz, instantly digitizing it on-chip and sending radio packets.
Receives encrypted telemetry and decompresses the signal in real time. This module physically plugs into a slot on the universal MP160 or MP200 research station.
The main station synchronizes signals from other interfaces (e.g., Eye-Tracker) and reliably transmits them over a wired Ethernet connection to the powerful AcqKnowledge software on the researcher's computer.
Key technical parameters of the transmitter and receiver for both recorded physiological channels.
| Parameter | Parameter 1 | Parameter 2 |
|---|---|---|
| Data transmission rate | 2000 Hz | 2000 Hz |
| Signal resolution | 16-bit | 16-bit |
| Measurement range | Depends on sensor configuration | Depends on sensor configuration |
| Standard filtering | Depends on sensor configuration | Depends on sensor configuration |
| Power supply | Li-Ion battery (approx. 72h operation) | Li-Ion battery (approx. 72h operation) |
| Sensor placement | Depends on the sensor used | Depends on module configuration |
Physiological measurements are the gold standard in research, widely used in advanced scientific applications.
Biomechanics, Neuromarketing, Gait analysis
Because the system pairs separate wireless modules, you can seamlessly monitor the reactions of two or more subjects side by side (e.g., during cooperative games or social experiments), without worrying about tangled cables.
Not being tethered to a "desk" in the lab opens the way to free navigation in VR simulators, testing interfaces while walking, or tracking stress under realistic conditions (Ecological Validity).
Transducer for wireless recording of heel and toe strike activity, includes a Heel/Toe Strike sensor and an adapter for communicating with the wireless transmitter, which can be conveniently strapped to the ankle.
24-bit signal resolution with dynamic range. Extremely low noise floor and built-in hardware filters that minimize motion artifacts.
Full compatibility with the LSL (Lab Streaming Layer) protocol, TTL ports, and E-Prime. Guarantees microsecond-level timing precision for stimuli.
Full access to uncompressed Raw Data signals. Direct export to research formats CSV, MATLAB, and Python API integration.
Peer-reviewed equipment, widely cited in thousands of global publications in psychophysiology and neuroscience.
Trusted by leading researchers from institutions such as:
The BioNomadix system has drastically simplified our research in Virtual Reality environments. Previously, cables caused constant artifacts for users trying to explore virtual surroundings. Now the quality of the collected physiological data is perfectly smooth, and participants barely remember they are wearing the equipment.
Dr. Eng. Robert Carter
Head of the Neurocognitive Science Laboratory
No, the BioNomadix module is fully wireless and worn on the patient's body. It communicates with the receiver via dedicated high-frequency telemetry, allowing full freedom of movement in the lab or in VR simulator spaces.
Signals from the amplifier are routed directly to the AcqKnowledge research software, which offers automatic procedures for detecting and analyzing changes in the measured physiological parameters, both in real time and during post-processing.
Yes. By using the open Lab Streaming Layer (LSL) protocol or digital Hardware Triggering inputs on MP160 systems, all sensor streams can be perfectly time-aligned with video from eye-trackers or fNIRS.
Related products
BiometricsDynamometry (Force & Pressure)EMG (Muscle Activity)
BiometricsECG (Heart Activity)Research & Scientific InstrumentsRSP (Respiration)
BiometricsGSR / EDA (Skin Conductance)PPG / SpO2 (Pulse & Saturation)Research & Scientific Instruments
Product: BioNomadix 2Ch Wireless Heel-Toe Strike Transmitter+Receiver