Stand-off breaching round

The invention claimed is: 1. A stand-off breaching device for breaching a barrier, comprising a housing, an explosive main charge having a barrier-end and a rear-end, a detonator, and means for initiating the detonator when the explosive main charge is at a preselected distance from a barrier, wherein the detonator is configured to detonate the explosive main charge at the rear-end, such that in-use a barrier can be breached by an explosively generated overpressure. 2. The stand-off breaching device according to claim 1 wherein the explosive main charge is a conically formed explosive main charge having a substantially circular end and a cone-apex, the conically formed explosive main charge being arranged such that the substantially circular end is the barrier-end and the cone-apex is the rear-end. 3. The stand-off breaching device according to claim 2 wherein the cone-apex is a truncated cone-apex. 4. The stand-off breaching device according to claim 2 wherein the conically formed explosive main charge has an apex-angle in a range of 50 to 70 degrees. 5. The stand-off breaching device according to claim 2 wherein the conically formed explosive main charge further comprises a charge extension formed at the substantially circular end. 6. The stand-off breaching device according to claim 5 wherein the charge extension comprises an inverted truncated cone. 7. The stand-off breaching device according to claim 1 wherein the explosive main charge comprises a multi-point initiated explosive main charge. 8. The stand-off breaching device according to claim 1 wherein the means for initiating the detonator comprises a proximity sensor, the proximity sensor being configured to receive radiation of a predetermined wavelength. 9. The stand-off breaching device according to claim 8 wherein the proximity sensor is configured to transmit radiation of the predetermined wavelength. 10. The stand-off breaching device according to claim 9 wherein the proximity sensor further comprises an electronics module, the electronics module being configured to measure a signal-difference between a transmitted radiation of the predetermined wavelength and a received radiation of the predetermined wavelength, the signal-difference corresponding to a range-to-go. 11. The stand-off breaching device according to claim 10 wherein the electronics module is configured to output a first detonation signal when the range-to-go is less than or equal to the preselected distance. 12. The stand-off breaching device according to claim 11 wherein the preselected distance is between 50 mm and 250 mm. 13. The stand-off breaching device according to claim 11 wherein the means for initiating the detonator further comprises a safe-to-arm unit, the safe-to-arm unit being configured to allow detonation of the explosive main charge upon detecting at least a first post-launch criterion and a generation of the first detonation signal. 14. The stand-off breaching device according to claim 8 wherein the radiation of the predetermined wavelength is acoustic radiation with a wavelength, or range of wavelengths, between 20 kHz and 100 KHz. 15. The stand-off breaching device according to claim 8 wherein the radiation of the predetermined wavelength is electromagnetic radiation with a wavelength, or range of wavelengths, between 800 nm and 1200 nm. 16. The stand-off breaching device according to claim 1 wherein the detonator comprises a firing pin, firing pin actuator and a stab detonator. 17. The stand-off breaching device according to claim 1 further comprising an eject cartridge attached to the housing. 18. The stand-off breaching device according to claim 1 wherein the housing is substantially cylindrical and has a maximum diameter of 40 mm. 19. The stand-off breaching device according to claim 1 wherein the housing is formed from low fragment hazard materials. 20. The stand-off breaching device according to claim 1 further comprising a means for self-destruction. 21. The stand-off breaching device according to claim 1 wherein the explosive main charge has a mass of less than 50 g. 22. The stand-off breaching device according to claim 21 wherein the explosive main charge has a mass less than or equal to 20 g. 23. The stand-off breaching device according to claim 1 further comprising an on-board power supply. 24. The stand-off breaching device of claim 1 , wherein the detonator is located adjacent to the rear end of the explosive charge. 25. A barrier breaching system comprising the stand-off breaching device of claim 1 and a launcher, the launcher being suitable for firing the stand-off breaching device towards a barrier. 26. A method of breaching a barrier, the method comprising the steps of: a) Providing a stand-off breaching device comprising a housing, an explosive main charge having a barrier-end and a rear-end, a detonator, and means for initiating the detonator when the explosive main charge is at a preselected distance from a barrier, wherein the detonator is configured to detonate the explosive main charge at the rear-end; b) Locating the stand-off breaching device proximal to the barrier, such that the barrier-end is in facing relations with the barrier and is at the preselected distance from the barrier; and then c) Initiating the detonator using the means for initiating, thereby generating an explosively generated overpressure; such that the barrier is breached by the explosively generated overpressure. 27. An explosive main charge for use in stand-off barrier breaching, comprising a conically formed explosive charge having a substantially circular end and a cone-apex, such that in-use the explosive main charge is arrangeable to have the substantially circular end facing a barrier to be breached, such that the main charge is configured to detonate at the cone-apex to generate an overpressure directed towards the barrier, wherein the explosive main charge further comprises a charge extension extending from the substantially circular end, such that in-use the overpressure directed towards the barrier has a predetermined pressure profile. 28. The explosive main charge of claim 27 , wherein the charge extension comprises an inverted truncated cone extending from the substantially circular end. 29. The explosive main charge of claim 28 , wherein the inverted truncated cone has a maximum diameter equal to a diameter of the substantially circular end. 30. The explosive main charge of claim 29 , wherein the cone-apex of the conically formed explosive charge is a truncated cone apex. 31. The explosive main charge of claim 30 , wherein the charge extension further comprises a cylindrical part located between the conically formed explosive charge and the inverted truncated cone.