Drive arrangement for driving a vehicle safety device

The invention claimed is: 1. A drive arrangement for driving a vehicle safety device, the arrangement comprising: an input operable to receive a firing signal, the firing signal being suitable for activating a pyrotechnic squib; a first analyser operable to perform a first algorithm on the firing signal and to provide a first determination that the firing signal would have activated the pyrotechnic squib, the first determination being based on a plurality of counters of firing signal values; a second analyser operable to perform a second algorithm on the firing signal different than the first algorithm and to provide a second determination that the firing signal would have activated the pyrotechnic squib, the second determination being based on an integral of the firing signal values over time; a drive arrangement output connected to the first and the second analysers, the drive arrangement output providing an output signal if both the first and the second analysers determine that the firing signal would have activated the pyrotechnic squib, the drive arrangement output signal being suitable for activating the vehicle safety device. 2. The drive arrangement according to claim 1 , wherein the input is configured to be connected to an output of an electronic control unit operable to provide the firing signal. 3. The drive arrangement according to claim 2 , wherein the electronic control unit comprises a first processor and a second processor which are each configured to receive a crash signal from a respective one of two crash sensors, wherein the first and the second processors are each operable to provide a confirmation signal in the event that the crash sensors sense a crash situation, the outputs of the first and the second processors being connected to a logic circuit which is operable to output the firing signal if both the processors provide the confirmation signals indicative of the crash situation. 4. The drive arrangement according to claim 2 , wherein the electronic control unit comprises a further output which is connected to the pyrotechnic squib in the vehicle safety device. 5. The drive arrangement according to claim 4 , wherein the firing signal provided by the electronic control unit at the output of the electronic control unit which is connected to the input of the drive arrangement is substantially the same as the firing signal provided by the electronic control unit at the further output which is connected to the pyrotechnic squib. 6. The drive arrangement according to any claim 1 , wherein the input comprises two terminals and a first and a second resistor connected in series between the terminals. 7. The drive arrangement according to claim 6 , wherein the first analyser comprises a first current sensor to sense the current flowing through the first resistor when the input receives the firing signal, the first analyser being operable to analyse the current flowing through the first resistor and to provide the first determination if the current is above a predetermined threshold. 8. The drive arrangement according to claim 6 , wherein the second analyser comprises a second current sensor to sense the current flowing through the second resistor when the input receives the firing signal, the second analyser being operable to analyse the current flowing through the second resistor and to provide the second determination if the current is above a predetermined threshold. 9. The drive arrangement according to claim 1 , wherein the firing signal comprises a current which is above a predetermined threshold and which flows for a predetermined length of time. 10. The drive arrangement according to claim 9 , wherein the current of the firing signal is between 1 A and 2 A and the current flows for a duration of between 0.5 ms and 2 ms. 11. The drive arrangement according to claim 9 , wherein the current of the firing signal is 1.2 A and the current flows for 2 ms. 12. The drive arrangement according to claim 9 , wherein the current of the firing signal is 1.75 A and the current flows for 0.5 ms. 13. A drive arrangement for driving a vehicle safety device, the arrangement comprising: an input operable to receive a firing signal, the firing signal being suitable for activating a pyrotechnic squib; a first analyser operable to perform a first algorithm on the firing signal and to provide a first determination that the firing signal would have activated the pyrotechnic squib; a second analyser operable to perform a second algorithm on the firing signal and to provide a second determination that the firing signal would have activated the pyrotechnic squib; a drive arrangement output connected to the first and the second analysers, the drive arrangement output providing an output signal if both the first and the second analysers determine that the firing signal would have activated the pyrotechnic squib, the drive arrangement output signal being suitable for activating the vehicle safety device; a test signal source which is connected to provide a test signal to the input, the test signal being equivalent to the firing signal which is suitable for activating the pyrotechnic squib; and a logic circuit which is activated when the test signal is provided to the input, the logic circuit being operable to prevent the output from providing the output signal when both the first and the second analysers determine that the test signal would have activated the pyrotechnic squib. 14. The drive arrangement according to claim wherein the output is configured to be connected to at least one pyrotechnic squib in a vehicle safety device. 15. A drive arrangement for driving a vehicle safety device, the arrangement comprising: an input operable to receive a firing signal, the firing signal being suitable for activating a pyrotechnic squib; a first analyser operable to perform a first algorithm on the firing signal and to provide a first determination that the firing signal would have activated the pyrotechnic squib; a second analyser operable to perform a second algorithm on the firing signal and to provide a second determination that the firing signal would have activated the pyrotechnic squib; a drive arrangement output connected to the first and the second analysers, the drive arrangement output providing an output signal if both the first and the second analysers determine that the firing signal would have activated the pyrotechnic squib, the drive arrangement output signal being suitable for activating the vehicle safety device; wherein the output is connected to at least one pyrotechnic squib in a vehicle safety device; wherein the arrangement is operable to provide a diagnostic signal to the pyrotechnic squib and to analyse the diagnostic signals passing through the pyrotechnic squib to determine the health of each pyrotechnic squib. 16. The drive arrangement according to claim 15 , wherein the diagnostic signal is too low to activate the pyrotechnic squib. 17. The drive arrangement according to claim 15 , wherein the diagnostic signal is connected with a diagnostic comparator which upon determining the occurrence of the diagnostic signal provides diagnostic pulses to an output control unit which provides a second diagnostic signal to the pyrotechnic squib.