Meet us at the 9th International IEEE EMBS Conference on Neural Engineering focussing on “Neurotechnologies for Medical Therapies and Beyond” taking place from March 20-23 in San Francisco.
CTO and CEO, Dr. Martin Schüttler, will give a talk about ‘Focus on Neural interface and Electrode Technologies’ at the IEEE NeuroTech Entrepreneurship and Innovation Workshop on March 20th during Symposium#2: Neural Probes, Interface and Electrode, Orthopedics Technologies between 11am and 12:30pm.
We’re happy to help you realize your next project. Whether it is a complete implantable system design, an electrode or another component.
Please fill out the form below and our sales team will be in contact with you shortly.
FEATURE
Recording channels
Sampling rate
Sampling dynamic range
High pass filter cut-off
Low pass filter cut-off
Amplifier band pass gain
Band pass roll-off
Reference
Stimulation
Stimulation channels
Current
Current source
Pulse width
Power supply
Wireless data transmission
Closed Loop latency
VALUE
32
1 kHz
16 bit (74 nV smallest increment)
ca. 2 Hz
325 Hz
Adjustable: 100-750
20 dB/dec
Any (subset) of the recording channels selectable by software or one dedicated hard-wired additional contact
Current-controlled, biphasic, rectangular, asymmetric stimulus pulses (cathodic amplitude with pulse width followed by an anodic counter pulse of 1/4x amplitude and 4x pulse width)
32
Max. -6 mA / +1.5 mA (24 µA increments) within
compliance voltage range of -11 V to +5 V
Can be directed to any of the 32 electrode contacts
Negative phase: 10 µs – 2,500 µs
Wireless inductive, 120-140 kHz
Bi-directional, radio frequency in 2400-2483.5 MHz band ≤ 40 ms
