Abstract: Embodiments are presented herein of an open-loop test system for testing vertical-cavity surface-emitting lasers (VCSELs). A high-speed pulse generator may be used to produce nanoseconds pulses provided to the VCSEL device. A high-speed oscilloscope may be used to measure the resultant nanoseconds pulses across the VCSEL device. The VCSEL device voltage and VCSEL device current may be obtained from the measured nanosecond pulses according to compensation data derived from the system. A pre-test compensation procedure may be used to obtain the compensation data, which may include representative characteristics of each system component.

Abstract: A compress garment for application to a body generally includes a member sized and shaped for positioning onto a body when in position conforms to and supports a body shape. A least one, preferably a multiple number of access windows disposed in the garment member for enabling dermal application and removal of a medical electrode. The access windows are located on the garment member at positions enabling access to pre-selected dermal areas.

Abstract: An electrical stimulation device method provides for exact repeatable positioning of stimulation pads onto a body part. The device includes a flexible member for contacting a body part and hook/loop members for tightly supporting the flexible member against the body part. At least one electrical bus is provided which may include a connector for enabling connection of the bus to an electrical lead wire and an electrical contact disposed on the inside of the flexible member. A conductive pad is provided which has dimensions substantially smaller than the dimensions of the flexible member and includes a cover adhesive layer for removably adhering the conductive pad to the flexible member inside with a first side of the cover layer covering the bus contact and an electrical communication therewith. A current controlling media is adhered to a second side of the cover layer and a base layer disposed on the current controlling media is provided for removably adhering the conductive pad to the body part.

Abstract: An electrical stimulation device method provides for exact repeatable positioning of stimulation pads onto a body part. The device includes a flexible member for contacting a body part and hook/loop members for tightly supporting the flexible member against the body part. At least one electrical bus is provided which may include a connector for enabling connection of the bus to an electrical lead wire and an electrical contact disposed on the inside of the flexible member. A conductive pad is provided which has dimensions substantially smaller than the dimensions of the flexible member and includes a cover adhesive layer for removably adhering the conductive pad to the flexible member inside with a first side of the cover layer covering the bus contact and an electrical communication therewith. A current controlling media is adhered to a second side of the cover layer and a base layer disposed on the current controlling media is provided for removably adhering the conductive pad to the body part.

Abstract: A compress garment for application to a body generally includes a member sized and shaped for positioning onto a body when in position conforms to and supports a body shape. A least one, preferably a multiple number of access windows disposed in the garment member for enabling dermal application and removal of a medical electrode. The access windows are located on the garment member at positions enabling access to pre-selected dermal areas.

Abstract: An electrical stimulation device method provides for exact repeatable positioning of stimulation pads onto a body part. The device includes a flexible member for contacting a body part and hook/loop members for tightly supporting the flexible member against the body part. At least one electrical bus is provided which may include a connector for enabling connection of the bus to an electrical lead wire and an electrical contact disposed on the inside of the flexible member. A conductive pad is provided which has dimensions substantially smaller than the dimensions of the flexible member and includes a cover adhesive layer for removably adhering the conductive pad to the flexible member inside with a first side of the cover layer covering the bus contact and an electrical communication therewith. A current controlling media is adhered to a second side of the cover layer and a base layer disposed on the current controlling media is provided for removably adhering the conductive pad to the body part.

Abstract: A compress garment for application to a body generally includes a member sized and shaped for positioning onto a body when in position conforms to and supports a body shape. A least one, preferably a multiple number of access windows disposed in the garment member for enabling dermal application and removal of a medical electrode. The access windows are located on the garment member at positions enabling access to pre-selected dermal areas.

Abstract: An electrical stimulation device method provides for exact repeatable positioning of stimulation pads onto a body part. The device includes a flexible member for contacting a body part and hook/loop members for tightly supporting the flexible member against the body part. At least one electrical bus is provided which may include a connector for enabling connection of the bus to an electrical lead wire and an electrical contact disposed on the inside of the flexible member. A conductive pad is provided which has dimensions substantially smaller than the dimensions of the flexible member and includes a cover adhesive layer for removably adhering the conductive pad to the flexible member inside with a first side of the cover layer covering the bus contact and an electrical communication therewith. A current controlling media is adhered to a second side of the cover layer and a base layer disposed on the current controlling media is provided for removably adhering the conductive pad to the body part.

Abstract: An electrical stimulation device method provides for exact repeatable positioning of stimulation pads onto a body part. The device includes a flexible member for contacting a body part and hook/loop members for tightly supporting the flexible member against the body part. At least one electrical bus is provided which may include a connector for enabling connection of the bus to an electrical lead wire and an electrical contact disposed on the inside of the flexible member. A conductive pad is provided which has dimensions substantially smaller than the dimensions of the flexible member and includes a cover adhesive layer for removably adhering the conductive pad to the flexible member inside with a first side of the cover layer covering the bus contact and an electrical communication therewith. A current controlling media is adhered to a second side of the cover layer and a base layer disposed on the current controlling media is provided for removably adhering the conductive pad to the body part.

Abstract: A medical electrode includes a conductive flexible member with a non-conductive flexible sheet disposed on a top side thereof. A connector is provided for establishing electrical contact between the conductive flexible member and an external electrical device and a conductive adhesive adhered to a bottom side of the conductive flexible member provides electrical conductivity to a patient's skin. The conductive adhesive includes a contact surface for application to a patient's skin and an edge perimeter subtending the contact surface and the conductive flexible member. A non-conductive coating is disposed on the edge perimeter of the conductive adhesive for providing an environmental and electrical barrier.