Shock absorber with pressure-controlled damping

What is claimed is: 1. A pressure-sensitive damper, comprising: a first cylinder at least partially defining a first fluid chamber containing a damping fluid; a damping piston for reciprocal motion within the first cylinder; a piston rod having a first end connected to the damping piston, and a second end extending through an end of the first cylinder; a second cylinder at least partially defining a second fluid chamber in fluid communication with the first cylinder; a compression damping plate fixed in the second cylinder; at least one passage in the compression damping plate through which the damping fluid, displaced by the piston rod, flows in a first direction from the first fluid chamber to the second fluid chamber; a first pressure source in communication with the second fluid chamber; a valve for generating a resistance force to the fluid flow, wherein the resistance force varies according to an amount of force communicated to the valve by the first pressure source, the valve comprising: a blow-off piston having a first position in engagement with the at least one passage and a second position removed from the at least one passage and, an intensifier piston; wherein the first pressure source acts on a first end of the intensifier piston and generates an intensified pressure at a second end of the intensifier piston, wherein the intensified pressure is communicated to the blow-off piston to create a force urging the blow-off piston toward the first position and; a bypass circuit adapted to permit a flow of the damping fluid in the first direction through the compression damping plate without passing through the at least one passage. 2. A pressure-sensitive damper, comprising: a first cylinder at least partially defining a first fluid chamber containing a damping fluid; a damping piston for reciprocal motion within the first cylinder; a piston rod having a first end connected to the damping piston, and a second end extending through an end of the first cylinder; a second cylinder at least partially defining a second fluid chamber in fluid communication with the first cylinder; a compression damping plate fixed in the second cylinder; at least one passage in the compression damping plate through which the damping fluid, displaced by the piston rod, flows in a first direction from the first fluid chamber to the second fluid chamber; a first pressure source in communication with the second fluid chamber; a valve for generating a resistance force to the fluid flow, wherein the resistance force varies according to an amount of force communicated to the valve by the first pressure source, the valve comprising: a blow-off piston having a first position in engagement with the at least one passage and a second position removed from the at least one passage and, an intensifier piston; wherein the first pressure source acts on a first end of the intensifier piston and generates an intensified pressure at a second end of the intensifier piston, wherein the intensified pressure is communicated to the blow-off piston to create a force urging the blow-off piston toward the first position; and an externally-adjustable bypass circuit adapted to permit a flow of the damping fluid in the first direction through the compression damping plate without passing through the at least one passage. 3. The damper of claim 1 , further comprising a second pressure source acting on the intensifier piston, the second pressure source adapted to generate a force tending to counteract the amount of force communicated to the valve by the first pressure source. 4. The damper of claim 3 , wherein a pressure level of the second pressure source is adjustable. 5. The damper of claim 1 , wherein a pressure level of the first pressure source is adjustable. 6. The damper of claim 1 , wherein the first pressure source comprises a pressurized, compressible chamber containing compressible fluid. 7. The damper of claim 6 , wherein the first pressure source additionally comprises an annular chamber with externally-adjustable volume. 8. The damper of claim 1 , wherein the blow-off piston moves in an axial direction between the first position and the second position. 9. A pressure-sensitive damper, comprising: a first cylinder at least partially defining a first fluid chamber containing a damping fluid; a damping piston for reciprocal motion within the first cylinder; a piston rod having a first end connected to the damping piston, and a second end extending through an end of the first cylinder; a second cylinder at least partially defining a second fluid chamber in fluid communication with the first cylinder; a compression damping plate fixed in the second cylinder; at least one passage in the compression damping plate through which the damping fluid, displaced by the piston rod, flows in a first direction from the first fluid chamber to the second fluid chamber; a first pressure source in communication with the second fluid chamber; a valve for generating a resistance force to the fluid flow, wherein the resistance force varies according to an amount of force communicated to the valve by the first pressure source, the valve comprising: a blow-off piston having a first position in engagement with the at least one passage and a second position removed from the at least one passage and, an intensifier piston; wherein the first pressure source acts on a first end of the intensifier piston and generates an intensified pressure at a second end of the intensifier piston, wherein the intensified pressure is communicated to the blow-off piston to create a force urging the blow-off piston toward the first position and further comprising a shaft extending from the compression damping plate, wherein the intensifier piston is at least partially disposed in the shaft and moves relative to the shaft; wherein the blow-off piston moves in an axial direction between the first position and the second position and the blow-off piston and the intensifier piston move in the same direction. 10. The damper of claim 9 , wherein the blow-off piston comprises an annular piston disposed around the shaft. 11. A pressure-sensitive damper, comprising: a first cylinder at least partially defining a first fluid chamber containing a damping fluid; a damping piston for reciprocal motion within the first cylinder; a piston rod having a first end connected to the damping piston, and a second end extending through an end of the first cylinder; a second cylinder at least partially defining a second fluid chamber in fluid communication with the first cylinder; a compression damping plate fixed in the second cylinder; at least one passage in the compression damping plate through which the damping fluid, displaced by the piston rod, flows in a first direction from the first fluid chamber to the second fluid chamber; a first pressure source in communication with the second fluid chamber; a valve for generating a resistance force to the fluid flow, wherein the resistance force varies according to an amount of force communicated to the valve by the first pressure source, the valve comprising: a blow-off piston having a first position in engagement with the at least one passage and a second position removed from the at least one passage and, an intensifier piston; wherein the first pressure source acts on a first end of the intensifier piston and generates an intensified pressure at a second end of the intensifier piston, wherein the intensified pressure is communicated to the blow-off piston to create a force urging the blow-off piston toward the first position and; a second passage in the compression damping plate adap