PLEASURE,
HF IBRAMED
HIGH FREQUENCY
The HF Ibramed is a portable high-frequency device for facial, body, capillary, and podiatry applications.
Differentials
The HF Ibramed is a portable high-frequency device that’s easy to transport. It features an applicator pen with a universal socket for glass electrodes, simple intensity control on the pen itself, and comes with a carrying case.
There is a gas inside the electrode whose function is to induce the flow of current.
The electrode contains a gas whose function is to induce current flow. This gas is excited by the electrical current and emits light, the color of which depends on the type of gas used. When exposed to high voltage, the gas becomes ionized and the glass bulb fluoresces.
Additional Information
Product Description
The HF is a portable high-frequency device, easy to use, intended for facial, capillary, and podiatry treatments. These techniques have no systemic effects, do not cause dependency, and have no undesirable side effects.
Indications
- Facial, capillary, and podiatry treatments;
- Onychomycosis treatments;
- Disinfection of acne-prone skin and podiatric lesions;
- Cauterization of skin after pustule extraction;
- Enhanced penetration of active ingredients;
- In revitalization and skin hydration protocols;
- Scalp disinfection in seborrhea cases;
- Stimulation of facial and capillary blood circulation;
- Post-hair removal treatments;
- For skin discontinuity (pressure ulcers and open wounds);
- Inflamed wounds after cuticle removal.
Included Items
- 1 high-frequency comb electrode;
- 1 larger spherical high-frequency electrode;
- 1 user manual;
- 1 portable HF case.
Optional Items
- Smaller spherical electrode;
- Fork electrode;
- Saturator electrode;
- Cauterizing electrode.
Technical Specifications
Technical Specifications
- Voltage: Bivolt 127/220 V | 50/60 Hz (manual selection);
- ANVISA registration: 10360310020.
Dimensions
- Width: 7 cm;
- Height: 9.5 cm;
- Length: 11 cm;
- Weight: 500 g;
Alternating
Current
The HF Ibramed generates alternating current that moves molecules, exciting the gas within the glass electrodes. When the electrode approaches tissue, small “electric sparks” appear on the outer surface of the electrode—this produces the physiological effects of high frequency: fungicidal, bactericidal effects, and increased microcirculation.