Battery adapter with flex circuit and silicone spring

The invention claimed is: 1. A battery adapter, comprising: a resilient tray that defines a receiving area sized to receive one or more removable batteries and includes one or more resilient sidewalls of a resilient material configured to be compressed by the batteries; a flexible circuit wrapped around at least a portion of an exterior of the resilient tray over the resilient sidewalls and extending into an interior of the resilient tray; a first set of one or more contacts secured to a portion of the flexible circuit, the first set of one or more contacts being disposed on the exterior of the resilient tray to deliver power to an associated device; and a second set of one or more contacts electrically coupled with the first set of contacts by the flexible circuit, the second set of contacts being secured to the flexible circuit and disposed on an interior of the resilient sidewalls in the battery receiving area. 2. The battery adapter according to claim 1 , wherein the resilient sidewalls are formed at least in part of compressible polymer. 3. The battery adapter according to claim 1 , wherein the resilient sidewalls are formed by overmolding silicone on a rigid tray. 4. The battery adapter according to claim 1 , wherein the resilient tray includes one or more alignment features facilitating alignment of the battery adapter to the associated device and/or allowing the battery adapter to be secured to the associated device. 5. The battery adapter according to claim 4 , wherein the features include opposing recesses and/or wells, wherein the associated device includes opposing protrusions and/or detents provisioned to mate with the opposing recesses and/or wells. 6. A battery adapter comprising: a resilient tray that defines a receiving area for one or more batteries and includes one or more resilient sidewalls of a resilient material configured to be compressed by the batteries; and, a flexible circuit wrapped around at least a portion of an exterior of the resilient tray over the resilient sidewalls and extending into an interior of the resilient tray; a first set of one or more contacts secured to a portion of the flexible circuit, the first set of one or more contacts being disposed on the exterior of the resilient tray to deliver power to an associated device; and a second set of one or more contacts electrically coupled with the first set of contacts by the flexible circuit, the second set of contacts being disposed on an interior of the resilient sidewalls in the battery receiving area; wherein the battery receiving area of the resilient tray includes a well with a pair of opposite resilient sidewalls, the well being configured to secure the battery adapter with the associated device, the first set of contacts including contacts on the opposite resilient sidewalls for contacting a battery received therebetween. 7. The battery adapter according to claim 6 , wherein the resilient material forms a layer at least on the opposite walls behind the contacts such that the resilient material is compressed as a battery is inserted and the compressed resilient material biases the contacts into contact with the inserted battery. 8. The battery adapter according to claim 1 , wherein the resilient tray further includes a rigid tray overmolded with the resilient material. 9. The battery adapter according to claim 1 , wherein the flexible circuit electrically couples a plurality of the battery contacts in series. 10. A receiving device, comprising: a receiving area to receive a battery adapter; wherein the battery adapter includes: a resilient tray that defines a receiving area for one or more batteries and includes one or more resilient sidewalls of a resilient material configured to be compressed by the batteries; a flexible circuit wrapped around at least a portion of an exterior of the resilient tray over the resilient sidewalls and extending into an interior of the resilient tray; a first set of one or more contacts secured to a portion of the flexible circuit, the first set of one or more contacts being disposed on the exterior of the resilient tray to deliver power to the receiving device; and a second set of one or more contacts electrically coupled with the first set of contacts by the flexible circuit, the second set of contacts being secured to the flexible circuit and disposed on an interior of the resilient sidewalls in the battery receiving area. 11. The receiving device according to claim 10 , wherein the receiving device is a patient worn device. 12. The battery adapter according to claim 6 , wherein the second set of contacts are secured to the flexible circuit and disposed on an interior of the resilient sidewalls in the battery receiving area inside the well.