Connection system for printed circuit board

What is claimed is: 1. A connection system for a printed circuit board, comprising: a board-mounted connector comprising a board-mounted connector body configured to mount on the printed circuit board and to hold a plurality of board-mounted optical fibers, the board-mounted optical fibers being operatively connected to the printed circuit board; and a plug-in connector configured to blind mate with the board-mounted connector, the plug-in connector comprising a plug-in connector body, the plug-in connector further comprising a plug-in ferrule assembly, the plug-in ferrule assembly comprising a plug-in ferrule and a plug- in ferrule holder holding the plug-in ferrule, the plug-in ferrule holder comprising a latch element for latching with the plug-in connector body to retain the plug-in ferrule assembly on the plug-in connector body such that the system makes an optical connection between the plug-in ferrule and the plurality of board-mounted optical fibers when the plug-in connector is blind-mated with the board-mounted connector, wherein the plug-in ferrule holder comprises a bottom wall and opposing sidewalls, wherein each of the bottom wall and the opposing sidewalls defines a respective blind mating guide, wherein the latch element comprises a deflectable latch arm with an outwardly projecting latch hook on each of the opposing sidewalls. 2. The system as set forth in claim 1 , wherein the plug-in ferrule holder comprises an integral blind mating guide for guiding the plug-in ferrule assembly into optical alignment with the plurality of board-mounted optical fibers as the plug-in connector is blind mated with the board-mounted connector. 3. The system as set forth in claim 1 , wherein the plug-in ferrule holder comprises a receptacle with a space to receive the plug-in ferrule. 4. The system as set forth in claim 1 , wherein the plug-in ferrule assembly further comprising a ferrule spring, and the plug-in ferrule further comprising a ferrule flange, the plug-in ferrule holder configured to receive the plug-in ferrule and the ferrule spring such that the ferrule spring is compressed between the plug-in ferrule holder and the plug-in ferrule and yieldably biases the plug-in ferrule forward so that the ferrule flange is pressed against the front stop. 5. The system as set forth in claim 1 , wherein the plug-in connector body comprises a ferrule assembly recess and opposing latch recesses on opposite sides of the ferrule assembly recess, the outwardly projecting latch hooks being configured to latch with the opposing latch recesses to retain the ferrule assembly in the ferrule assembly recess. 6. The system as set forth in claim 5 , wherein the opposing latch recesses are first opposing latch recesses, the plug-in connector body further comprising second opposing latch recesses, the outwardly projecting latch hooks being configured to selectively latch with the first opposing latch recesses and the second opposing latch recesses to selectively configure the plug-in connector in a first plug-in connector configuration and a second plug-in connector configuration, respectively. 7. The system as set forth in claim 1 , wherein the board-mounted connector further comprises a board-mounted ferrule assembly comprising a board-mounted ferrule terminating the plurality of board-mounted optical fibers and a board-mounted ferrule holder holding the board-mounted ferrule, the board-mounted ferrule holder configured to latch with the board-mounted connector body to retain the board-mounted ferrule assembly on the board-mounted connector body. 8. The system as set forth in claim 7 , wherein the board-mounted ferrule holder and the plug-in ferrule holder comprise complementary blind mating guides for guiding the board-mounted ferrule and the plug-in ferrule into optical alignment as the plug-in connector is blind mated with the board-mounted connector. 9. The system as set forth in claim 7 , wherein the board-mounted ferrule holder comprises integral projections and the plug-in ferrule holder comprises integral slots configured to slidably accept the integral projections as the plug-in connector is blind mated with the board-mounted connector. 10. The system as set forth in claim 7 , wherein the board-mounted ferrule comprises a board-mounted ferrule flange, the board-mounted ferrule holder comprises latch arms arranged at lateral sides to secure the board-mounted ferrule flange in position. 11. The system as set forth in claim 10 , wherein the board-mounted ferrule assembly is free of any ferrule spring. 12. The system as set forth in claim 7 , wherein the board-mounted ferrule holder comprises a plurality of connector body latch arms and wherein the board-mounted connector body comprises a plurality of latch holes configured to latch with the plurality of connector body latch arms. 13. The system set forth in claim 1 , wherein the board-mounted connector body comprises an electrical connection portion and an optical connection portion, the electrical connection portion supporting a plurality of first electrical contacts and the optical connection portion supporting the board-mounted ferrule assembly. 14. The system as set forth in claim 13 , wherein the plug-in connector body comprises an electrical connection portion and an optical connection portion, the electrical connection portion supporting a plurality of second electrical contacts and the optical connection portion supporting the plug-in ferrule assembly. 15. A connection system for a printed circuit board, comprising: a board-mounted connector comprising a board-mounted connector body configured to mount on the printed circuit board and to hold a plurality of board-mounted optical fibers, the board-mounted optical fibers being operatively connected to the printed circuit board; and a plug-in connector configured to blind mate with the board-mounted connector, the plug-in connector comprising a plug-in connector body, the plug-in connector further comprising a plug-in ferrule assembly, the plug-in ferrule assembly comprising a plug-in ferrule and a plug-in ferrule holder holding the plug-in ferrule, the plug-in ferrule holder comprising a latch element for latching with the plug-in connector body to retain the plug-in ferrule assembly on the plug-in connector body such that the system makes an optical connection between the plug-in ferrule and the plurality of board-mounted optical fibers when the plug-in connector is blind-mated with the board-mounted connector, wherein the board-mounted connector comprises a board-mounted ferrule holder holding the plurality of board-mounted optical fibers, wherein the board-mounted connector body comprises a first portion and a second portion, a central wall between the first portion and the second portion, an outer wall at an outboard end of the second portion, and a board-mounted ferrule assembly recess in the second portion, the outer wall defining at least one of the plurality of latch holes to latch with the board-mounted ferrule holder and the central wall defining another of the plurality of recesses. 16. The system as set forth in claim 15 , wherein each of the board-mounted connector body and the plug-in connector body comprises an electrical connection portion and an optical connection portion. 17. A connection system for a printed circuit board, comprising: a board-mounted connector comprising a board-mounted connector body configured to mount on the printed circuit board and to hold a plurality of board-mounted optical fibers, the board-mounted optical fibers being operatively connected to the p