Biased plunger arrangement for a brake pad retention system

What is claimed is: 1. A brake pad motion suppression system for a disc brake, comprising: a brake caliper; a brake pad; a carrier mount having a mount horn having a brake pad abutment surface configured to receive the brake pad, the mount horn being located on a radially outward-facing side of the carrier mount which faces away from a rotation axis of a brake disc of the disc brake; and a brake pad biasing structure located at least partially in a radially outward-facing bore in a radially-outward end of the mount horn, wherein a lateral side of the brake pad and the brake pad abutment surface of the carrier mount have complementary brake pad retention features configured to retain the brake pad in the disc brake in a radially outward direction, the brake pad biasing structure biases the retention feature of the brake pad in the radially outward direction against the retention feature of the brake pad abutment surface, and the brake pad biasing structure includes a biasing feature arranged to apply a radially-outward biasing force to a radially-inward-facing surface of the brake pad that extends laterally over the radially-outward end of the mount horn. 2. The brake pad motion suppression system of claim 1 , wherein the brake pad biasing feature includes a plunger configured to be located in the radially-outward oriented bore of the mount horn radially beneath the laterally-extending portion of the brake pad backing plate. 3. The brake pad motion suppression system of claim 2 , wherein the brake pad biasing structure includes a spring configured to bias the plunger in the radially-outward direction against a radially-inner surface of the laterally-extending portion of the brake pad backing plate. 4. The brake pad motion suppression system of claim 3 , wherein at least one of the plunger and the mount horn bore includes a circumferential groove configured to receive an O-ring located between the plunger and the mount horn bore. 5. The brake pad motion suppression system of claim 4 , wherein the O-ring is configured to at least one of permit passage of air into and permit passage of air out of a region of the mount horn bore radially below the plunger while excluding solids and liquids. 6. The brake pad motion suppression system of claim 3 , wherein at least one of the plunger and the mount horn are configured to receive a plunger retraction device configured to prevent application of the radially-outward biasing force to the brake pad. 7. The brake pad motion suppression system of claim 6 , wherein the plunger retraction device is a pin insertable into a cross-bore of the mount horn and engageable into a recess of the plunger. 8. The brake pad motion suppression system of claim 4 , wherein a region of the mount horn bore radially below the plunger is vented to atmosphere. 9. The brake pad motion suppression system of claim 2 , wherein a region of the mount horn bore radially below the plunger is vented to atmosphere. 10. The brake pad motion suppression system of claim 1 , wherein the brake pad retention feature of the brake pad abutment surface is wedge-shaped. 11. A brake pad carrier of a disc brake motion suppression system, comprising: a carrier frame configured to straddle a brake disc of a disc brake when in an installed position in a disc brake; at least two carrier mount horns of the carrier frame located on a radially outward-facing side of the carrier frame facing away from a rotation axis of the brake disc, each mount horn including a brake pad abutment surface configured to cooperate with a respective adjacent lateral surface of a brake pad to limit brake pad motion in a direction radially-outward relative to a rotation axis of the brake disc and in a lateral direction parallel to a rotation plane of the brake disc when the brake pad is in an installed position in the carrier frame; and a carrier frame brake pad biasing structure located at least partially in a radially outward-facing bore in a radially-outward end of each mount horn, wherein the respective lateral side of the brake pad and the adjacent brake pad abutment surface of the respective mount horn have complementary surface features configured to retain the brake pad in the radially outward direction, the brake pad biasing structure is configured to bias a face of the respective surface feature of the brake pad in the radially outward direction against a face of the surface feature of the respective brake pad abutment surface when the brake pad is in the installed position in the carrier frame, and the brake pad biasing structure includes a brake pad biasing feature arranged to apply a radially-outward biasing force to a radially-inward-facing surface of the brake pad that extends laterally over the radially-outward end of each mount horn. 12. The brake pad carrier of claim 11 , wherein the brake pad biasing feature includes a plunger configured to be located in the radially-outward oriented bore of the adjacent respective mount horn radially beneath the laterally-extending portion of the respective brake pad backing plate. 13. The brake pad carrier of claim 12 , wherein the brake pad biasing structure includes a spring configured to bias the plunger in the radially-outward direction. 14. The brake pad carrier of claim 13 , wherein at least one of the plunger and the respective mount horn bore includes a circumferential groove configured to receive an O-ring located between the plunger and the respective mount horn bore. 15. The brake pad carrier of claim 14 , wherein the O-ring is configured to permit passage of air into a region of the respective mount horn bore radially below the plunger while excluding solids and liquids. 16. The brake pad carrier of claim 13 , wherein the surface feature of the respective brake pad abutment surface is wedge-shaped. 17. The brake pad carrier of claim 13 , wherein at least one of the plunger and the respective mount horn are configured to receive a plunger retraction device configured to prevent application of the radially-outward biasing force to the brake pad. 18. The brake pad carrier of claim 12 , wherein a region of the respective mount horn bore radially below the plunger is vented to atmosphere. 19. A brake pad for a disc brake having a brake caliper configured to receive a brake pad in a radial direction through an opening that straddles a brake disc, the brake pad comprising: a brake pad backing plate having at least one brake pad retaining feature on each lateral side of the backing plate and a laterally-outward extending portion on each side of the backing plate; and a brake pad lining material affixed to a brake disc-side of the brake pad backing plate, wherein each of the lateral brake pad retaining features has a vertical height extending in a direction between top and bottom edges of the brake pad backing plate, a lateral width extending in a circumferential direction of the brake pad backing plate and a thickness extending in a direction parallel to a rotation axis of the brake disc when the brake pad is in an installed position, the width and the thickness of each of the lateral brake pad retaining features are dimensioned to allow the brake pad to be inserted radially through the brake caliper opening into a radially-oriented brake pad insertion feature of the disc brake adjacent to a side of the caliper opening furthest away from the brake disc, the height, the width and the thickness of each of the lateral brake pad retaining features are dimensio