Claims
- 1. A mini-dock for connecting peripheral devices to a modular diagnostic ultrasound apparatus, the mini-dock comprising:
a receptacle housing; a plurality of peripheral device ports, in or on said receptacle housing, each peripheral device port connected to one or more individual electrical connector(s); and a receptacle for releasably mating with an I/O port of said modular diagnostic ultrasound apparatus, said receptacle in electronic communication with said plurality of peripheral device ports.
- 2. The mini-dock as described in claim 1, wherein the electronic communication between said receptacle and said peripheral device ports is a pass through connection.
- 3. The mini-dock as described in claim 1, wherein the electronic communication between said receptacle and said peripheral device ports is achieved through the use of one or more active circuits.
- 4. The mini-dock as described in claim 3, wherein the active circuit is a digital to analog video converter for video signal passing from the modular diagnostic ultrasound apparatus to a video device through a peripheral device port.
- 5. The mini-dock as described in claim 3, wherein the active circuit is an analog to digital video converter for video feed through a peripheral device port to the receptacle.
- 6. The mini-dock as described in claim 1, having one or more means for removably connecting the mini-dock to the modular diagnostic ultrasound apparatus.
- 7. The mini-dock as described in claim 1, further comprising a surge protector.
- 8. A docking station for connecting a plurality of peripheral devices to a modular diagnostic ultrasound apparatus, the docking station comprising:
a mini-dock having a housing, a receptacle, a plurality of peripheral device ports in electronic communication with the receptacle; a base fixedly attached to the mini-dock and having means for guiding a modular diagnostic ultrasound apparatus into alignment with said mini-dock and means for securing the modular diagnostic ultrasound apparatus to the mini-dock; and a power supply incorporated within said base and in electronic communication with said mini-dock such that electrical power can be fed from the power supply to the modular ultrasound apparatus through the mini-dock.
- 9. The docking station as described in claim 8, wherein the base further comprises a housing having an aperture for slidably receiving said modular diagnostic ultrasound apparatus.
- 10. The docking station as described in claim 9, wherein said housing has a reinforced internal frame for supporting a video display unit.
- 11. The docking station as described in claim 8, further comprising a plurality of user interfaces for controlling said modular diagnostic ultrasound apparatus.
- 12. A multi-transducer connector module comprising a housing having a relief connector for mating with an aperture for a transducer connector on a modular diagnostic ultrasound apparatus, said multi-transducer connector having a plurality of recess connectors for fittingly engaging a plurality of relief transducer connectors, the housing having a switch for each recess connector by which an operator can select which transducer connected to the ultrasound device to be used at any particular moment.
- 13. The multiple transducer connector of claim 12, wherein the switch is an electronic switch controlled through a user interface.
- 14. The multiple transducer connector as described in claim 12, wherein the various transducers may be “hot” switched for use with said modular diagnostic ultrasound apparatus.
- 15. A mobile docking station for use with a modular diagnostic ultrasound apparatus comprising:
a base having a plurality of castors wherein at least one said castor is capable of locking; a tower mounted on said base; and a docking station located substantially near the top of the tower, the docking station capable of releasably receiving a modular diagnostic ultrasound apparatus.
- 16. The mobile docking station as described in claim 15, further comprising a plurality of storage bins.
- 17. The mobile docking station as described in claim 15, wherein the tower further comprises a means for adjusting the height of the tower.
- 18. The tower as described in claim 15, wherein the means for adjusting the height of the tower is a gas cylinder actuated by a manual trigger.
- 19. The mobile docking station as described in claim 15, wherein the tower is a “Z” frame.
- 20. The mobile docking station as described in claim 15, wherein the tower is a “A” frame.
- 21. The mobile docking station as described in claim 15, wherein the tower is an inverted “T” frame.
- 22. The mobile docking station as described in claim 15, wherein the tower is an “I” frame.
- 23. The mobile docking station as described in claim 15, further comprising an I/O port for connecting a universal control pad.
- 24. A system for diagnostic ultrasound examinations comprising:
at least one core module having a housing, system electronics package and a I/O port; and one or more docking station(s) in electronic communication with a plurality of peripheral devices, the docking station capable of releasable connection to said core module.
- 25. The system of claim 24, wherein the docking station is a mobile docking station.
- 26. The system of claim 24, wherein the one or more docking station(s) is a mix of mobile docking stations and desktop docking stations.
- 27. The system as described in claim 24, wherein the core module may be used as an ultrasound diagnostic imaging device while docked, and all data inputs and outputs are sent or received through the docking station to or from the peripheral devices.
CROSS-REFERENCES TO RELATED APPLICATIONS
[0001] This application contains common subject matter with U.S. patent application Ser. No. ______ (Attorney Docket No. 019162-003810), filed concurrently with the present application, the contents of which are herein incorporated by reference.