BIOPAC® Systems, Inc. Logo

BioNomadix 2CH Wireless Goniometry Amplifier

BioNomadix®: Physiology Where, When, and How You Want

Amplifier for wireless, wearable physiology

Request More Info
BioNomadix 2Ch Wireless Goniometry
Part #: BN-GONIO

The BioNomadix two channel wireless goniometry amplifier is a dual output device that provide simultaneous measurements around two orthogonal rotational axes (e.g., wrist flexion/extension and radial/ulnar deviations). These units interface with the MP160 data acquisition and analysis platform and AcqKnowledge software, allowing advanced analysis for multiple applications and supporting acquisition of a broad range of signals and measurements.

BN-GONIO can support any combination of two outputs—one twin-axis goniometer, two single-axis goniometers, a finger goniometer and an open output, two torsiometers, etc. Each axis requires one output and one BN-ADAPT-GON adapter; adapters are included with BioNomadix goniometers/torisometers or can be purchased separately for existing BIOPAC or 3rd-party goniometers/torsiometers.

  • Goniometers BN-GON-110-XDCR and BN-GON-150-XDCR are twin-axis transducers used to measure limb angular movement.
  • Torsiometers BN-TOR-110-XDCR and BN-TOR-150-XDCR are single-axis transducers used to measure axial rotation (e.g., forearm pronation/supination).
  • Finger Goniometer BN-GON-F-XDCR is a single-axis transducer used to measure flexion/extension of a finger or toe joint.
See More...

MODULAR CONSTRUCTION

Amplifiers snap together for easy system configuration and re-configuration.

Intuitive, Elegant AcqKnowledge Software

Powerful automated analysis. Instantly & easily view, measure, analyze, transform, and report data.

Powerful MP160 Data Acquisition and Analysis System

Flexible, proven modular data acquisition and analysis system for life science research.

BioNomadix Wireless 2 Ch Goniometry Module
View Spec PDF

Are You Looking for These?

Part #: BN-GONIO
Categories: Amplifiers - Research, BioNomadix Wireless Wearable Physiology - Research
Subcategories: Transducer Amplifiers - Research, Transmitter-Receiver Amplifiers - Research

Alternatives
For the same Platform

Details

Compatibility


Suggested reading for additional information on goniometry: Legnani G, Zappa B, Casolo F, Adamini R, Magnani PL. A model of an electro-goniometer and its calibration for biomechanical applications. Med Eng Phys. 2000 Dec;22(10):711-22.


The BioNomadix series of wireless, wearable physiology monitoring devices for life science research are available for a wide range of signals, including ECG, EEG, EOG, EMG, EGG, Respiration, Pulse, Temperature, Electrodermal Activity, Impedance Cardiography, Strike (Heel-Toe), Goniometry, Accelerometry, and Gyro. BioNomadix are typically dual-channel units, offering either two of the same signal or a combination of signals.

BioNomadix noninvasively record high-quality, full-bandwidth data while comfortably allowing subjects to move freely in natural indoor environments. Each BioNomadix device consists of two parts, a transmitter that is worn by the subject to amplify and send the physiological data, and a receiver module. BioNomadix transmitters use digital transmission and short leads or transducers placed close to the signal source to provide excellent signal quality. BioNomadix are configured for specific signal types, so you don’t have to adjust settings on the hardware or software for high quality data.

Multiple BioNomadix can be used to provide the optimum signal combination for a research study requiring biopotential or transducer signals.

When used with a BIOPAC MP System, up to 16 channels of BioNomadix data can be recorded for multi-subject or multi-parameter protocols. The system also works with multiple MP150 systems or third-party data acquisition hardware via an isolated power supply module (IPS100C). AcqKnowledge software adds the power of sophisticated automation and scoring routines for each signal type, plus customization options.

BioNomadix accessory items include transducers, electrode leads, and a custom, pocketed stretch-mesh shirt to comfortably hold multiple devices in place. The shirt has zippers placed for easy access to electrode sites and is available from extra small to extra large.

Developed and manufactured by BIOPAC Systems Inc., a leader in life science data acquisition and analysis, the new BioNomadix series delivers all the benefits of a wireless solution with the signal quality & integrity of a wired system. BioNomadix provides a cost-efficient option for uncompromised wireless physiological subject monitoring.

Videos

Integrating BIOPAC Research Systems | Data Acquisition & Analysis

Support

Downloads/Resources

Knowledge Base

Recommended Items

Spotlight On

Camera System – High Frame Rate

Tightly synchronize high frame rate video—up to 100 FPS—with physiological data recorded with a BIOPAC Research System Use the High Frame Rate Camera System to capture precise movement activity as a series of video frames (640×480 resolution) in conjunction with other recorded physiological variables. With CAM-HFR-A and AcqKnowledge media tools, it’s possible to obtain synchronization […]

View All
Latest News

New Citations | Psychophysiology, Chewing Study, Pulse Wave Velocity

Recent studies in Psychophysiology, EMG, ECG and PPG measurement utilizing BIOPAC software and hardware: Fight or Flight (Reflex Response Time) “Fight or flight” is a physiological response that occurs due to a perceived threat to survival. It can physiologically be observed through an increase in heart rate, respiratory rate, blood pressure, oxygen availability, and other mechanisms. In […]

New Citations | Heart Rate & Heart Rate Variability, Wingate Anaerobic Test, and Neuroscience of Music

HRV, EMG, and EEG studies using BIOPAC hardware and software include: DON’T STRESS Humans encounter various stressful situations everyday at work, home, and school. Such stress when experienced at high degrees and/or for a long duration of time could lead to cardiovascular diseases, cognitive dysfunctions, and psychological disorders. This study examined the validity of a novel physiological measurement […]

Read All
Request a Demonstration
Request a Demonstration