Rajinder S Gill, Age 739717 Lundahl Dr, Pico Rivera, CA 90660

6543466, Apr 8, 2003

Dec 19, 2000

09/741552

Rajinder S. Gill - Pico Rivera CA, 90662

G05D 706

137 10, 137486, 1374875

A mass flow controller has a sensor section that generates an electrical signal, dependent on the measured flow rate. The controller sends a control signal to a magnetic field generating unit, dependent upon the actual flow rate and the desired flow rate, which in response, generates a magnetic flux in the direction of the fluid input to the fluid output through the body of the controller. This means that the magnetic flux is concurrent with the fluid flow within the mass flow controller body. The magnetic flux alters the position of a plunger button assembly, located between the bypass chamber and the fluid output, relative to an orifice plate to control the flow rate to obtain the desired output flow. By incorporating the proportional control valve within the mass flow controller body, the need for a separate and large valve section is eliminated, reducing the size and cost of the controller.

6619315, Sep 16, 2003

Feb 28, 2003

10/377039

Rajinder S. Gill - Pico Rivera CA, 90662

G05D 706

137486, 1374875

A mass flow controller has a sensor section that generates an electrical signal, dependent on the measured flow rate. The controller sends a control signal to a magnetic field generating unit, dependent upon the actual flow rate and the desired flow rate, which in response, generates a magnetic flux in the direction of the fluid input to the fluid output through the body of the controller. This means that the magnetic flux is concurrent with the fluid flow within the mass flow controller body. The magnetic flux alters the position of a plunger button assembly, located between the bypass chamber and the fluid output, relative to an orifice plate to control the flow rate to obtain the desired output flow. By incorporating the proportional control valve within the mass flow controller body, the need for a separate and large valve section is eliminated, reducing the size and cost of the controller.

6705341, Mar 16, 2004

Feb 28, 2003

10/377054

Rajinder S. Gill - Pico Rivera CA, 90662

G05D 706

137486, 1374875

A mass flow controller has a sensor section that generates an electrical signal, dependent on the measured flow rate. The controller sends a control signal to a magnetic field generating unit, dependent upon the actual flow rate and the desired flow rate, which in response, generates a magnetic flux in the direction of the fluid input to the fluid output through the body of the controller. This means that the magnetic flux is concurrent with the fluid flow within the mass flow controller body. The magnetic flux alters the position of a plunger button assembly, located between the bypass chamber and the fluid output, relative to an orifice plate to control the flow rate to obtain the desired output flow. By incorporating the proportional control valve within the mass flow controller body, the need for a separate and large valve section is eliminated, reducing the size and cost of the controller.

8523794, Sep 3, 2013

Sep 16, 2010

12/924002

Emily Iker - Pacific Palisades CA, US
Rajinder S. Gill - Pico Rivera CA, US

Milka LLC - Santa Monica CA

A61H 9/00

601152, 601148, 601149, 601150, 601151

An apparatus and method for treatment of patients suffering from lymphedema. The apparatus includes a multiple chamber sleeve positioned in a wrap around fashion on a body extremity to be treated. The chambers are sequentially inflated and maintained so until all chambers are inflated and then all the chambers are simultaneously deflated except the proximal end chamber to move edema fluids out of the afflicted area. The apparatus includes the capability of applying interferential therapy either alone or in combination with compression therapy. Advantageously, the sleeve chambers capture pressurized air when applied thereto, at designated locations, so as to form air pockets that can selectively apply isolated points of pressure, and in combination with the application of electrical current to a patient's affected area, provide effective lymphedema therapy without disrupting normal vascular and lymphatic functioning.

2004016, Aug 26, 2004

Feb 24, 2004

10/786520

Rajinder Gill - Pico Rivera CA, US

G05D007/06

137/486000

A mass flow controller has a sensor section that generates an electrical signal, dependent on the measured flow rate. The controller sends a control signal to a magnetic field generating unit, dependent upon the actual flow rate and the desired flow rate, which in response, generates a magnetic flux in the direction of the fluid input to the fluid output through the body of the controller. This means that the magnetic flux is concurrent with the fluid flow within the mass flow controller body. The magnetic flux alters the position of a plunger button assembly, located between the bypass chamber and the fluid output, relative to an orifice plate to control the flow rate to obtain the desired output flow. By incorporating the proportional control valve within the mass flow controller body, the need for a separate and large valve section is eliminated, reducing the size and cost of the controller.

2007008, Apr 19, 2007

Aug 23, 2006

11/508706

Rajinder Gill - Austin TX, US
Jarrid Gross - Fullerton CA, US

G01F 1/68

073204270

Excitation power to fluid flow measurement sensor is applied in such a way so as to maintain some part of the sensor elements at a constant temperature relative to the ambient fluid temperature and some part of the sensor elements to change its temperature with fluid flow which results in a sensor output that remains constant and linear with per unit flow. This semi-constant temperature sensor excitation scheme results in higher sensor output, added sensor range and temperature insensitive flow measurement. Therefore, this sensor excitation method negates the drawbacks of smaller and non-linear output and/or thermal runaway that are associated with other excitation methods.

6314991, Nov 13, 2001

Mar 2, 2000

9/517391

Rajinder S. Gill - Pico Rivera CA

G05D 706

137486

A mass flow controller has a sensor section that generates an electrical signal, dependent on the measured flow rate. The controller sends a control signal to a magnetic field generating unit, dependent upon the actual flow rate and the desired flow rate, which in response, generates a magnetic flux in the direction of the fluid input to the fluid output through the body of the controller. This means that the magnetic flux is concurrent with the fluid flow within the mass flow controller body. The magnetic flux alters the position of a plunger button assembly, located between the bypass chamber and the fluid output, relative to an orifice plate to control the flow rate to obtain the desired output flow. By incorporating the proportional control valve within the mass flow controller body, the need for a separate and large valve section is eliminated, reducing the size and cost of the controller.

6321765, Nov 27, 2001

Feb 27, 2001

9/794659

Rajinder S. Gill - Pico Rivera CA

G05D 706

137 10

A mass flow controller has a sensor section that generates an electrical signal, dependent on the measured flow rate. The controller sends a control signal to a magnetic field generating unit, dependent upon the actual flow rate and the desired flow rate, which in response, generates a magnetic flux in the direction of the fluid input to the fluid output through the body of the controller. This means that the magnetic flux is concurrent with the fluid flow within the mass flow controller body. The magnetic flux alters the position of a plunger button assembly, located between the bypass chamber and the fluid output, relative to an orifice plate to control the flow rate to obtain the desired output flow. By incorporating the proportional control valve within the mass flow controller body, the need for a separate and large valve section is eliminated, reducing the size and cost of the controller.