One Explorer Line, Three Processors
The Explorer line offers three distinct processors to provide flexible recording and stimulation capabilities for any modality. Designed with optimal technical specifications for varying channel counts, the Summit and Quest HD systems are ideal for any neuroscience application.
Modular Physiological Amplifiers and Stimulators for Custom Neuroscience Experiments
Integrate your standard touch proof electrodes, caps, or nets with any of our EEG Front Ends. If your experiments call for stimulation, our EEG+tES Front End is versatile enough to deliver transcranial (tES), transcutaneous nerve (TENS), or spinal stimulation (TSS).
- Compatible with any electrode technology, including caps or nets
- Small, multi-channel Front End combines the signal quality of active electrodes with the durability and robustness of passive electrodes
- Miniaturized form factor is ideal for mobile and ambulatory EEG applications
Non-Invasive Recording and Stimulation
EEG and EEG+tES
Designed for both high and low impedance surface electrodes, Ripple Neuromed’s EEG Front Ends are suited for any single reference surface recording.
Integrate your standard touchproof electrodes, caps, or nets with any of our Front Ends. If your experiments call for stimulation, our EEG+tES Front End is versatile enough to deliver transcranial (tES), transcutaneous nerve (TENS), or spinal stimulation (TSS).
Features
- Compatible with any electrode technology, including caps or nets
- Wearable on a cap or net to achieve the signal quality of active electrodes with the durability and robustness of passive electrodes
- Compact form factor is ideal for mobile and ambulatory EEG applications
Primary Use Cases
HD EEG | ERP | BCI | Mobile EEG | Sleep Research | Neuromodulation
Invasive Recording and Stimulation
Macro and Macro+Stim
Easily interface with standard clinical electrodes with the Macro Front End. The Macro’s wide dynamic range makes it ideal for applications such as high-resolution ECoG or sEEG. With a maximum stimulation current of 15mA, the Macro+Stim matches common clinical stimulators while implementing novel safety features to prevent excessive current discharge.
Features
- Integrated filtering, amplification, and 24-bit digitization for high-fidelity signal acquisition
- Select any two channels at a time for stimulation with channel switching time < 1ms
- Programmatic control of waveforms and train parameters
- Exhausting for fast recovery following stimulation
Primary Use Cases
Epilepsy | Parkison’s & Movement Disorders | Obsessive-Compulsive Disorder (OCD) | ECoG | sEEG | LFPs | DBS | Closed-Loop Neurodmodulation
Micro2 and Micro2+Stim
Made for high impedance microelectrodes, the Micro2 Front End is capable of recording single-units at a sampling rate of 30kHz. Stimulate and record on all 32 channels simultaneously with the Micro2+Stim for unparalleled flexibility and control in applications such as closed-loop stimulation and DBS.
Features
- Designed for high-impedance microelectrodes
- Integrated filtering, amplification, and 16-bit digitization for high-fidelity signal acquisition
- Simultaneous recording and stimulation on all channels
- Programmatic control of waveforms and train parameters
- Fast-settle circuitry for artifact rejection and rapid recording recovery following stimulation
Primary Use Cases
Single-Unit/Multi-Unit Activity | ECoG | LFPs | Closed-Loop Stimulation
EMG & Peripheral Recording
Physio and PhysioD
Providing the flexibility to record any electrophysiology signals, Ripple Neuromed’s Physio Front End can be used for EMG, ECG, respiration, or other non-invasive measures. Available in a true-differential 16-channel configuration as well as a single reference 32-channel configuration, the Physio Front End can meet all of your high-density, peripheral recording needs.
Features
- Configurable in 16 channel differential pairs or 32 single-ended channels
- Acquire EMG, ECG, respiration, and other bio-signal measures
Primary Use Cases
Sleep Research | Psychophysiology | MEP | Multi-modal Electrophysiology | Kinesiology | BCI
