Wirelrss surface emg System
Delsys trigno avanti wireless EMG system:
Delsys is the worldwide leader in the design, manufacture, and marketing of a portfolio of high performance electromyography instruments.
These include a range of physiological and biomechanical sensors that are used in all types of human movement research and education.
Trigno Avanti Platform:
A trusted brand for reliable recordings of EMG & neural firings for research, medical, educational, and OEM applications
WiFi and Bluetooth wireless communication
Reliable and easy EMG signal detection
Real-time feedback of signal strength
Trigno Research+
Advancing research possibilities with wearable solutions for human movement assessments
With built-in Wi-Fi and Bluetooth capabilities, this dual-purpose system enables you to record EMG + movement data from anywhere and at any time. Leveraging these abilities makes the system the optimal indoor/outdoor tool for both advanced research and mobile clinical conditions.
Trigno Wireless System
A high-performing device designed to make EMG signal detection reliable and easy.
The system is capable of streaming data digitally into EMGworks®, third-party software, or via analog outputs for integration with motion capture and other third-party data acquisition systems. Full triggering features further expand integration options for additional measurement technologies.
Research Mode
Wireless Communication: Wi-Fi
Stream data digitally into EMGworks® or via analog channels for integration
Mix and match from the entire Trigno™ EMG & Additional Sensors
Integrate with a third-party measurement technologies and synchronize data recording
Mobile Mode
Wireless Communication: Bluetooth
Record and analyze data with Mobile EMG Suite
Compatible with Trigno Avanti, Quattro, other latest-gen Trigno sensors
Recommended Tablet: Samsung Galaxy Tab S2 (SM-T713NZKEXAR) , Android V 6 (Marshmallow) operating system
Trigno Avanti Mobile:
Monitor Muscle Performance and Recovery. Anytime. Anywhere
EMG + Movement Assessment Kits for Research, Clinical and Teaching Applications
Patented EMG Technology
Real-time Biofeedback Displays
Targeted EMG+Movement Assessment Reports
3D Accelerometer, Gyroscope & Magnetometer
Bluetooth Connectivity
Wireless Data Logging and Sharing
Specifications
Recommended Devices
Samsung Galaxy Tab S5e (for EMG Plots and EMG Reports)
Samsung Galaxy S10 (for EMG Logger)
Android 6.0 and above
Bluetooth 4.1 and above
Up to 4 channels per device
Sampling rates
EMG (raw): (up to) 2000 Hz
EMG (RMS): 333.3 Hz (125 ms Window Width, 122 ms Window Overlap)
ACC: 133.3 Hz
Gyro: 133.3 Hz
Orientation (Quaternion or PRY): 66.7 Hz
Works with Trigno Avanti, Trigno Duo Mini, Trigno Mini and Trigno Quattro sensors
What’s Included in the System
Sensor charging cradle
Mobile EMG Suite (free, unlimited downloads)
(2) Trigno™ 4-slot adhesives (80/pack)
Pre-loaded Android Tablet for Data Collection
Remote Training
Lifetime Technical Support
Trigno Avanti Mobile Package
Trigno Hand Performance Monitor
First Ever Hybrid Technology For Real-time Monitoringof Muscle Forces, Muscle Fatigue, Grip Stability and Grip StrengthMiniature EMG Sensors & Hand Dynamometer Join Force
Intuitively provide comprehensive information on hand fatigue, hand strength and hand stability for human movement scientists and rehabilitation clinics
Hand Rehabilitation Monitoring
Strength Performance Testing
Joint Movement Testing
Muscle Force Testing
Complete Picture of Hand & Forearm Health
Consistent and easy-to-understand metrics generated from EMG & Dynamometery
Trigno Duo Mini EMG Sensors
Advanced, 2-channel EMG + IMU sensor with two of the smallest EMG sensing heads in the market.
Hand Dynamometer
Combine force and EMG measurements for a complete picture of strength performance with the Trigno Duo
Trigno HPM
Hand Grip Strength
Quantify grip strength and identify muscle imbalances to obtain the complete picture of hand performance
NeuroMap
The first technology to reveal the signals that drive human movement
Neuromuscular networks convey signals between the brain & muscles to enable human movement. These signals are rich with information but challenging to monitor, and have remained hidden from view until now.
Galileo (dEMG) Sensor
Fully compatible with existing Trigno™ systems
Hybrid Technology
Simultaneously monitor EMG, Neural Firings and Kinematics
Small Footprint
Collected integrated data from both small + large muscles with reusable 4-channel mini-grid sensor
NeuroMap Software
User-friendly data visualization & analysis, featuring publication-ready figures and full data export
NeuroMap Package
NeuroMap System is able to stream data digitally into EMGworks®, NeuroMap Suite, Galileo Apps, or via API for integration with motion capture and other third-party data acquisition and analysis systems (Visual 3D, Matlab, Labview, …). Full triggering features further expand the possibility for integration with third-party measurement technologies.
Galileo Open-Source Hardware + API
Collection of Neural Firing Data Made Easy
Options
Package: 1 Sensor
Example:
Integration:
Goniometer, EMG+IMUs, Force sensors, ultrasound
Package: 2 Sensors
Example:
Integration:
Force plates, EMG+IMUs, isokinetic machines, ultrasound
Package: 2 Sensors
Example:
Integration:
Force plates, EMG+IMUs, isokinetic machines, ultrasound
Package: 8-16 Sensors
Example:
MU Based Simulation of Muscle Fatigue
Integration:
Motion capture, EMG+IMUs, force plates, instrumented VR environments
What’s Included in the NeuroMap System
1-16 wireless Galileo (dEMG) sensors
Trigno™ Acquisition Base Station
EMGworks® software for acquiring sEMG signals
Galileo Analytics software for processing neural firings reports
Kinematic software
Plug-in for C-Motion for processing EMG & kinematics data
Integration paths for Motion Capture Systems
Triggering
API
EMGworks
Acquisition and Analysis Software with Flexibility and features to bring research ideas into reality.
Featuring powerful tools for advanced research and user-friendly interfaces for hassle-free data acquisition and analysis. EMGworks® software is built to integrate seamlessly with all Delsys EMG systems.
Data Collection
Easily record EMG and biomechanical signals using a wide array of ready-to-use data collection protocols.
Signal Quality Monitor
Take advantage of our patent-pending Signal Quality Monitor tool to ensure high-quality sEMG data.
Signal Quality Monitor
Take advantage of our patent-pending Signal Quality Monitor tool to ensure high-quality sEMG data.
Data Analysis
Combine the power of advanced plotting tools and analysis options designed for EMG and biomechanical research.
Trigno EMG & Additional Sensors
Our latest generation wireless sensor combines patented EMG with increased IMU performance, while supporting both Research and Mobile data collection modes.
Combine. Collect. Analyze.
Specifically designed to complement EMG + movement studies, the Trigno product line offers users a full set of physiological and biomechanical monitoring tools to simplify complex research and provide more useful data.
Trigno Avanti Sensor
Our latest generation wireless sensor combines patented EMG with increased IMU performance, while supporting both Research and Mobile data collection modes.
Button-less Operation
Improved RF Performance
On-board IMU
LED Status indicators
Selectable EMG Bandwidth Settings
On-board Signal Processing
Specifications
Sensor Channels
1x EMG, up to 6x IMU
Reference Type
Dual on-board stabilizing reference
Inter-Electrode Spacing
10 mm
Size (Body)
27 x 37 x 13 mm
Mass
14 g
Operating Range
40 m in RF mode
Host Dependent/unlimited datalogger
Wireless Protocol
-2.400-2.483 GHz ISM Band,Proprietary RF Protocol
-BLE V4.2
EMG Bandwidths
10-850 Hz
20-450 Hz
EMG Sampling Rate (Max)
4370 sa/sec
Accelerometer Sampling Rate (Max)
963 sa/sec
Gyroscope Sampling Rate (Max)
741 sa/sec
Orientation Sampling Rate (Max)
222 sa/sec
Sensor Resolution
16 bits
EMG Baseline Noise (typical)
750 nV
EMG Input Range
11 mV / 22 mV rti
CMRR
<-80 dB
Battery Life
Up to 8 hours
Recharge Time (typical)
2.5 hours
Inter-Sensor Latency
< 1 sampling period
EMG Analog Output Delay
48 ms Fixed
ACC/Gyro Analog Output Delay
96 ms Fixed
On-Board EMG Filter
-Butterworth bandpass (40/80 dB/dec)
-RMS Envelope Calculation (100 ms window)
Real-Time IMU Orientation Filter
Quaternions or RPY (selectable)
Material
Medical Grade Polycarbonate
Seal and Protection
UV-sealed to prevent moisture from entering the sensor & to enhance patient safety
Patents
Protected by one or more of the following Patents 6480731, 6238338, 6440067, 9351559, 8971983, EP1070479
Trigno Galileo Sensor
4-pin array sensor for extracting motor unit data from surface EMG
The first-ever scientific instrument to measure neural firings, muscle activation, and kinematics for an integrated approach to human movement. A small unobtrusive sensor design with advanced noise-free wireless protocol transmission to seamlessly obtain high-quality sEMG signals and motor unit data.
Trigno Maize Sensor
Wireless HDsEMG grid sensor for studying regional muscle activation patterns in natural movement
16-ch semi HDsEMG Trigno Avanti sensors delivering data-driven images of muscles in real time during dynamic movements.
Reusable
high-density sEMG sensor
High-Fidelity
patented active EMG electrodes
Optimized
for high spatial resolution
Automatic
muscle activity mapping
Flexible setups for every application from lab to clinic
1 – Sensor
Monitor subtle changes in regional muscle activation that may hold important clues for understanding motor control, rehabilitation and neuromuscular disease.
2 – Sensors
Assess muscle co-activation across active muscle regions for a more comprehensive view of muscle fatigue and movement quality.
4 – Sensors
Create custom configurations and map muscle activity across the body for new insights into the alteration of human movement strategies due to pain, work and training.
Trigno Quattro Sensor
Advanced, 4-channel EMG + IMU sensor for adaptable muscle tracking
The Trigno™ Quattro Sensor combines four of the smallest EMG sensing heads on the market with an IMU to track human movement in both research labs and mobile environments.
Four small EMG heads
25 x 12 x 7 mm
Available for Research+ and Mobile systems
Wi-Fi and Bluetooth Capability
Transmission range of up to 40 meters
SLEEK MINIATURE HEADS IDEAL FOR USE IN:
HMIs, Prosthetics, Exoskeletal Systems, Pediatrics, Speech Therapy
Isolate and measure several muscles in areas of high traffic.
Trigno Duo Mini Sensor
Dual-head EMG + IMU sensor for muscle comparisons & coactivation
Two small EMG heads
25 x 12 x 7 mm
Conveniently record simultaneous activation from two muscles working as agonists or antagonists
2x EMG, up to 6x IMU
Up to 40 m range
2.4 GHz transmission
Trigno Mini Sensor
For recording surface EMG on small and “difficult-to-isolate” muscles
Bridging physiology and technology
The Trigno™ Mini is a wireless EMG sensor that is ideally suited for recording surface EMG on small and “difficult-to-isolate” muscles. With a sensing head that measures only 25 mm x 12 mm x 7 mm, the Trigno™ Mini Sensor can be used for a variety of small muscle applications, including physical therapy, rehabilitation sciences, sports science, ergonomics, and motor control.
Full Bandwidth EMG signal
Triaxial accelerometer
Reduced noise, motion artifacts & crosstalk from nearby muscles
SPECIFICATIONS:
Sensor Channels
1x EMG, up to 6x IMU
Reference Type
Dual on-board stabilizing reference
Inter-Electrode Spacing
10 mm
Size (Body)
27 x 46 x 13 mm
Size (Head)
25 x 12 x 7 mm
Mass
19 g
Cable Length
8 in.
Operating Range
40 m in RF mode
Host Dependent/unlimited datalogger
Wireless Protocol
-2.400-2.483 GHz ISM Band, Proprietary RF Protocol
-BLE V4.2
EMG Bandwidths
10-850 Hz
20-450 Hz
EMG Sampling Rate (Max)
4370 sa/sec
Accelerometer Sampling Rate (Max)
963 sa/sec
Gyroscope Sampling Rate (Max)
741 sa/sec
Orientation Sampling Rate (Max)
222 sa/sec
Sensor Resolution
16 bits
EMG Baseline Noise (typical)
750 nV
EMG Input Range
11 mV / 22 mV rti
CMRR
<-80 dB
Battery Life
Up to 8 hours
Recharge Time (typical)
2.5 hours
Inter-Sensor Latency
< 1 sampling period
EMG Analog Output Delay
48 ms Fixed
ACC/Gyro Analog Output Delay
96 ms Fixed
On-Board EMG Filter
-Butterworth bandpass (40/80 dB/dec)
-RMS Envelope Calculation (100 ms window)
Real-Time IMU Orientation Filter
Quaternions or RPY (selectable)
Material
Medical Grade Polycarbonate
Seal and Protection
UV-sealed to prevent moisture from entering the sensor & to enhance patient safety
Patents
Protected by one or more of the following Patents 6480731, 6238338, 6440067, 9351559, 8971983, EP1070479
SPECIFICATIONS:
Trigno Snap Lead Sensor
Connect to industry-standard pinch electrodes, for a more “traditional” approach to sEMG detection
Supporting traditional EMG research
The Trigno Snap Lead Sensor can connect to industry-standard pinch electrodes for a more “traditional” approach to sEMG detection. The sensor’s flexible clamp leads allow users to adjust their inter-electrode spacing as they deem suitable, and also enable data collection from difficult muscle sites.
Full EMG bandwidth
Built-in accelerometer
Robust wireless transmission
Compatible with standard snap electrodes
Sensor Channels
1x EMG, up to 6x IMU
Reference Type
Dual on-board stabilizing reference
Inter-Electrode Spacing
User Defined
Size (Body)
27 x 46 x 13 mm
Mass
25 g
Cable Length
4 in. OR 12 in.
Operating Range
40 m in RF mode
Host Dependent/unlimited datalogger
Wireless Protocol
-2.400-2.483 GHz ISM Band, Proprietary RF Protocol
-BLE V4.2
EMG Bandwidths
10-850 Hz
20-450 Hz
EMG Sampling Rate (Max)
4370 sa/sec
Accelerometer Sampling Rate (Max)
963 sa/sec
Sensor Resolution
16 bits
EMG Baseline Noise (typical)
750 nV
EMG Input Range
11 mV / 22 mV rti
CMRR
<-80 dB
Battery Life
Up to 8 hours
Recharge Time (typical)
2.5 hours
Inter-Sensor Latency
< 1 sampling period
EMG Analog Output Delay
48 ms Fixed
ACC/Gyro Analog Output Delay
96 ms Fixed
On-Board EMG Filter
-Butterworth bandpass (40/80 dB/dec)
-RMS Envelope Calculation (100 ms window)
Real-Time IMU Orientation Filter
Quaternions or RPY (selectable)
Material
Medical Grade Polycarbonate
Seal and Protection
UV-sealed to prevent moisture from entering the sensor & to enhance patient safety
Patents
Protected by one or more of the following Patents 6480731, 6238338, 6440067, 9351559, 8971983, EP1070479
Trigno Spring Contact Adapter
For indwelling EMG recording
Full EMG bandwidth
Built-in accelerometer
Robust wireless transmission
Compatible with standard snap electrodes
SPECIFICATIONS:
Sensor Channels
1x EMG, up to 6x IMU
Reference Type
Dual on-board stabilizing reference
Inter-Electrode Spacing
User Defined
Size (Body)
27 x 46 x 13 mm
Size (Head)
23 x 30 x 7 mm
Mass
25 g
Operating Range
40 m in RF mode
Host Dependent/unlimited datalogger
Wireless Protocol
-2.400-2.483 GHz ISM Band, Proprietary RF Protocol
-BLE V4.2
EMG Bandwidths
10-850 Hz
20-450 Hz
EMG Sampling Rate (Max)
4370 s/sec
Accelerometer Sampling Rate (Max)
963 sa/sec
Gyroscope Sampling Rate (Max)
741 sa/sec
Orientation Sampling Rate (Max)
222 sa/sec
Sensor Resolution
16 bits
EMG Baseline Noise (typical)
750 nV
EMG Input Range
11 mV / 22 mV rti
CMRR
<-80 dB
Battery Life
Up to 8 hours
Recharge Time (typical)
2.5 hours
Inter-Sensor Latency
< 1 sampling period
EMG Analog Output Delay
48 ms Fixed
ACC/Gyro Analog Output Delay
96 ms Fixed
On-Board EMG Filter
-Butterworth bandpass (40/80 dB/dec)
-RMS Envelope Calculation (100 ms window)
Real-Time IMU Orientation Filter
Quaternions or RPY (selectable)
Material
Medical Grade Polycarbonate
Seal and Protection
UV-sealed to prevent moisture from entering the sensor & to enhance patient safety
Patents
Protected by one or more of the following Patents 6480731, 6238338, 6440067, 9351559, 8971983, EP1070479
Trigno ±5V Analog Adapter
Integrate analog outputs from dynamometers and third-party equipment
A single Trigno™ Analog Adapter is capable of sampling and transmitting up to 4 analog channels, in accordance with its technical specifications. The adapter sensor is ideal for synchronization with dynamometers, as it supports both Biodex and HUMAC Norm (CSMi) systems to collect position, torque and velocity measurements.
Measure torque, position and velocity
Integration path for custom transducers
Up to 40 m range
2.4 GHz transmission
SPECIFICATIONS:
Sensor Channels
4x Analog
Size (Body)
27 x 46 x 13 mm
Mass
25 g
Operating Range
40 m in RF mode
Host Dependent/unlimited datalogger
Wireless Protocol
-2.400-2.483 GHz ISM Band, Proprietary RF Protocol
-BLE V4.2
Analog Bandwidths
DC-1000 Hz
DC-100 Hz
Analog Sampling Rate (Max)
4444 sa/sec (*1 channel trigger)
Sensor Resolution
16 bits
EMG Baseline Noise (typical)
750 nV
Sensor Resolution
16 bits
Sensor Input Range
+/-5V
Battery Life
Up to 8 hours
Recharge Time (typical)
2.5 hours
Inter-Sensor Latency
< 1 sampling period
EMG Analog Output Delay
48 ms Fixed
On-Board Analog Filter
Bessel Bandpass (40 dB/Dec) or
Butterworth Bandpass (40 dB/Dec)
Material
Medical Grade Polycarbonate
Seal and Protection
UV-sealed to prevent moisture from entering the sensor & to enhance patient safety
Patents
Protected by one or more of the following Patents 6480731, 6238338, 6440067, 9351559, 8971983, EP1070479
Trigno 4-Channel FSR Adapter
Designed to provide relative pressure information of body-contact surfaces
Each sensor transmits 4 independent analog signals, each servicing an individual FSR (Force Sensitive Resistor) membrane. These thin membranes are often affixed to shoe inserts for recording foot pressure timing at the heel, the toe, the first and the fifth metatarsals. Alternatively, these same sensors can be used to assess grip force during grasping tasks, or pressure distribution on the back while seated or lying down.
Identify the timing of significant events
Make relative amplitude comparisons
Available sizes: 0.2” circle diameter, 0.5” circle diameter and 1.5” square
Up to 40 m range
2.4 GHz transmission
SPECIFICATIONS:
Sensor Channels
4x FSR, up to 6x IMU
Size (Body)
27 x 46 x 13 mm
Mass
19 g
Operating Range
40 m in RF mode
Host Dependent/unlimited datalogger
Wireless Protocol
-2.400-2.483 GHz ISM Band, Proprietary RF Protocol
-BLE V4.2
FSR Bandwidths
DC-50 Hz
FSR Sampling Rate (Max)
1111 sa/sec
Accelerometer Sampling Rate (Max)
741 sa/sec
Gyroscope Sampling Rate (Max)
741 sa/sec
Orientation Sampling Rate (Max)
74 sa/sec
Sensor Resolution
16 bits
Battery Life
Up to 8 hours
Recharge Time (typical)
2.5 hours
Inter-Sensor Latency
< 1 sampling period
EMG Analog Output Delay
48 ms Fixed
ACC/Gyro Analog Output Delay
96 ms Fixed
Real-Time IMU Orientation Filter
Quaternions or RPY (selectable)
Material
Medical Grade Polycarbonate
Seal and Protection
UV-sealed to prevent moisture from entering the sensor & to enhance patient safety
Patents
Protected by one or more of the following Patents 6480731, 6238338, 6440067, 9351559, 8971983, EP1070479
Trigno Goniometer Adapter
Accurately measure joint angles
The adapter is compatible with several industry-standard twin axis devices. Simply connect the goniometer to the adapter, turn on, and begin streaming synchronized angle data to EMGworks®. The adapter supports three gain settings (low, medium and high) which can be easily selected in our software to maximize the dynamic range for the specific goniometer being used. A simple calibration in EMGworks® will yield highly accurate measurements in two orthogonal planes.
Measures angles in two orthogonal planes
Supports five models
Up to 40 m range
2.4 GHz transmission
SPECIFICATIONS:
Sensor Channels
2x Angle, up to 6x IMU
Size (Body)
27 x 46 x 13 mm
Mass
19 g
Operating Range
40 m in RF mode
Host Dependent/unlimited datalogger
Wireless Protocol
-2.400-2.483 GHz ISM Band, Proprietary RF Protocol
-BLE V4.2
FSR Bandwidths
DC-50 Hz
FSR Sampling Rate (Max)
1111 sa/sec
Accelerometer Sampling Rate (Max)
741 sa/sec
Gyroscope Sampling Rate (Max)
741 sa/sec
Orientation Sampling Rate (Max)
74 sa/sec
Sensor Resolution
16 bits
Angle Input Range
1.5mV / 1.8mV / 2.3mV
CMRR
< -100 dB
Battery Life
Up to 8 hours
Recharge Time (typical)
2.5 hours
Inter-Sensor Latency
< 1 sampling period
EMG Analog Output Delay
48 ms Fixed
ACC/Gyro Analog Output Delay
96 ms Fixed
Real-Time IMU Orientation Filter
Quaternions or RPY (selectable)
Material
Medical Grade Polycarbonate
Seal and Protection
UV-sealed to prevent moisture from entering the sensor & to enhance patient safety
Patents
Protected by one or more of the following Patents 6480731, 6238338, 6440067, 9351559, 8971983, EP1070479
Trigno Load Cell Adapter
Monitor forces in virtually any circumstance
Instrument your lab with easy-to-use wireless load cell sensors that can be quickly affixed to equipment or worn by users to monitor forces in virtually any circumstance. Select from a catalog of strain gauge devices covering wide measurement ranges and available in several different designs.
Supports a large variety of load cells
10g – 100Kg, S-type, Beam, Button style
Low, Medium & High Gain settings
Up to 40 m range
SPECIFICATIONS:
Sensor Channels
1x Force, up to 6x IMU
Size (Body)
27 x 46 x 13 mm
Mass
19 g
Operating Range
40 m in RF mode
Host Dependent/unlimited datalogger
Wireless Protocol
-2.400-2.483 GHz ISM Band, Proprietary RF Protocol
-BLE V4.2
Force Bandwidths
DC-50 Hz
Force Sampling Rate (Max)
2222 sa/sec
Accelerometer Sampling Rate (Max)
370 sa/sec
Gyroscope Sampling Rate (Max)
370 sa/sec
Orientation Sampling Rate (Max)
74 sa/sec
Sensor Resolution
16 bits
Force Input Range
1.6mV / 3.3mV / 6.5mV
CMRR
< -100 dB
Battery Life
Up to 8 hours
Recharge Time (typical)
2.5 hours
Inter-Sensor Latency
< 1 sampling period
EMG Analog Output Delay
48 ms Fixed
ACC/Gyro Analog Output Delay
96 ms Fixed
Real-Time IMU Orientation Filter
Quaternions or RPY (selectable)
Material
Medical Grade Polycarbonate
Seal and Protection
UV-sealed to prevent moisture from entering the sensor & to enhance patient safety
Patents
Protected by one or more of the following Patents 6480731, 6238338, 6440067, 9351559, 8971983, EP1070479
Trigno EKG Biofeedback Sensor
Add EKG signal recording to your physiological measurements
This biofeedback sensor is ideal for research involving physical activity, such as studies for childhood obesity, home monitoring and performance athletics. The onboard accelerometer can be used to gauge body movements or to identify subtle chest movements corresponding with breathing rate.
Connects to industry standard snap lead electrodes
Easy processing of heart rate, variability and similar functions
Built-in triaxial accelerometer
2.4 GHz transmission
SPECIFICATIONS:
Sensor Channels
1x EKG, up to 6x IMU
Reference Type
Dual on-board stabilizing reference
Inter-Electrode Spacing
User Defined
Size (Body)
27 x 46 x 13 mm
Mass
19 g
Cable Lengths
N/A
Operating Range
40 m in RF mode
Host Dependent/unlimited datalogger
Wireless Protocol
-2.400-2.483 GHz ISM Band, Proprietary RF Protocol
-BLE V4.2
EKG Bandwidth
2-30 Hz
EKG Sampling Rate (Max)
4370 sa/sec
Accelerometer Sampling Rate (Max)
963 sa/sec
Gyroscope Sampling Rate (Max)
741 sa/sec
Orientation Sampling Rate (Max)
222 sa/sec
Sensor Resolution
16 bits
EKG Input Range
11 mV / 22 mV rti
CMRR
< -80 dB
Battery Life
Up to 8 hours
Recharge Time (typical)
2.5 hours
Inter-Sensor Latency
< 1 sampling period
EMG Analog Output Delay
48 ms Fixed
ACC/Gyro Analog Output Delay
96 ms Fixed
On-Board EKG Filter
Butterworth bandpass (40/80 dB/Dec)
Real-Time IMU Orientation Filter
Quaternions or RPY (selectable)
Material
Medical Grade Polycarbonate
Seal and Protection
UV-sealed to prevent moisture from entering the sensor & to enhance patient safety
Patents
Protected by one or more of the following Patents 6480731, 6238338, 6440067, 9351559, 8971983, EP1070479