Segal Stim
A new generation of electrical brain stimulation devices
Segal Stim electrical brain stimulation device is produced with the help of the most up-to-date technologies known in the world, in two models (AT-12)tES and (ST-11)CES. For more information, please see the full page Do it.

Why Segal ?
- High quality and accuracy of the output signal
The ability to stimulate and apply a current with an accuracy of 10 microamps
- easy and fast user interface
Personalizing the design of the device for easy setup and setup by the user
- Fast and conventional montages
Quick use and compliant with standard protocols
- Ports on the device suitable for the clinic space
Powerful battery and fast charging in accordance with medical protocols and standards
Additional device information
SEGAL Stim AT-12
One of the brain stimulation methods is tDCS (transcranial direct current stimulation or electrical stimulation of the brain from the skull). In this method, using a weak electric current (up to 2 milliamps), they stimulate certain areas of the brain, which It can have therapeutic effects. It can also lead to more information about how the human brain works.
This device provides electrical stimulation with two independent and separate channels, each channel applies the following stimulation modes:
- tDCS stimulation or direct current electrical brain stimulation
- tACS stimulation or electrical brain stimulation with alternating current
- tRNS stimulation or electrical stimulation with random noise
- tDCS stimulation or pulsed current electrical stimulation
- Sham special mode of electrical stimulation
In addition to clinical use, these stimulation modes can also be used in research and research cases, and for personalization of treatment and research, it is possible to change the parameters in the device easily.
SEGAL Stim ST-11
Cranial Electrotherapy Stimulation (CES) is a neuromodulation tool used to treat several clinical disorders including insomnia, anxiety, and depression, and has been approved by the US Food and Drug Administration (FDA) for these three disorders. Computational modeling suggests that electrical current applied with CES in the ear lobes can reach cortical and subcortical regions at very low intensities associated with subthreshold neuromodulatory effects, and studies using electroencephalography (EEG) and functional magnetic resonance imaging (fMRI) It shows some effects on alpha band waves.
Getting to know the features of the device
