Spectrometer amplifier compensation

What is claimed is: 1. A conversion circuit for converting an ion detection current produced by an ion detector into an ion detection voltage, the conversion circuit comprising: a conversion amplifier coupled with a conversion resistor assembly for converting an ion detection current into an ion detection voltage, the conversion resistor assembly comprising at least one resistor having a high resistance and at least one capacitive compensation element; a compensation voltage circuit for deriving at least one compensation voltage from the ion detection voltage and feeding the at least one compensation voltage to the at least one capacitive compensation element, the compensation voltage circuit comprising at least one variable resistor for adjusting the at least one compensation voltage; a voltage reduction circuit for deriving a reduced voltage from the ion detection voltage, the voltage reduction circuit being arranged for supplying the reduced voltage to the at least one variable resistor, wherein the compensation voltage circuit comprising at least one neutralizing amplifier unit coupled between the at least one capacitive compensation element and the at least one variable resistor for at least partially neutralizing the voltage reduction of the voltage reduction circuit. 2. The conversion circuit according to claim 1 , wherein the voltage reduction circuit comprises a voltage divider and an amplifier, the amplifier preferably being an operational amplifier and the voltage divider preferably being connected to an inverting input of the operational amplifier. 3. The conversion circuit according to claim 1 , wherein the voltage reduction circuit is arranged for effecting a voltage reduction of at least 25%. 4. The conversion circuit according to claim 1 , wherein the at least one neutralizing amplifier unit comprises an amplifier and a voltage divider. 5. The conversion circuit according to claim 4 , wherein the at least one neutralizing amplifier unit is arranged in series with a variable voltage terminal of the at least one variable resistor. 6. The conversion circuit according to any of the preceding claims, comprising at least two neutralizing amplifier units and at least two variable resistors. 7. The conversion circuit according to claim 6 , further comprising at least one RC circuit coupled between an output terminal of the conversion resistor and a series arrangement of a further neutralizing amplifier unit and a further variable resistor. 8. The conversion circuit according to claim 7 , further comprising an additional resistor coupled between the conversion resistor and an output of the conversion amplifier, the additional resistor having a resistance which is small relative to the resistance of the conversion resistor. 9. The conversion circuit according to claim 8 , wherein the resistance of the additional resistor is less than 1% of the resistance of the conversion resistor. 10. The conversion circuit according to claim 7 , comprising at least two parallel RC circuits having different time constants. 11. The conversion circuit according to claim 10 , wherein the time constants are distributed approximately logarithmically. 12. The conversion circuit according to claim 1 , wherein at least one variable resistor is a digital variable resistor. 13. A conversion circuit for converting an ion detection current produced by an ion detector into an ion detection voltage, the conversion circuit comprising: a conversion amplifier coupled with a conversion resistor assembly for converting an ion detection current into an ion detection voltage, the conversion resistor assembly comprising at least one resistor having a high resistance and at least one capacitive compensation element; a compensation voltage circuit for deriving at least one compensation voltage from the ion detection voltage and feeding the at least one compensation voltage to the at least one capacitive compensation element, the compensation voltage circuit comprising at least one variable resistor for adjusting the at least one compensation voltage; and at least one RC circuit coupled to the conversion resistor. 14. The conversion circuit according to claim 13 , wherein the at least one RC circuit is coupled between the conversion resistor and a further variable resistor. 15. The conversion circuit according to claim 14 , further comprising an additional resistor coupled between the conversion resistor and an output of the conversion amplifier, the additional resistor having a resistance which is small relative to the resistance of the conversion resistor. 16. The conversion circuit according to claim 15 , wherein the resistance of the additional resistor is less than 1% of the resistance of the conversion resistor. 17. The conversion circuit according to claim 13 , comprising at least two parallel RC circuits having different time constants. 18. The conversion circuit according to claim 17 , wherein the time constants are distributed approximately logarithmically. 19. The conversion circuit according to claim 13 , wherein the conversion resistor assembly comprises one capacitive compensation element. 20. The conversion circuit according to claim 13 , wherein the conversion resistor assembly comprises three capacitive compensation elements. 21. The conversion circuit according to claim 13 , wherein the conversion resistor has a resistance of at least 100 gigaohms. 22. A mass spectrometer comprising a conversion circuit, the conversion circuit having: a conversion amplifier coupled with a conversion resistor assembly for converting an ion detection current into an ion detection voltage, the conversion resistor assembly comprising at least one resistor having a high resistance and at least one capacitive compensation element; a compensation voltage circuit for deriving at least one compensation voltage from the ion detection voltage and feeding the at least one compensation voltage to the at least one capacitive compensation element, the compensation voltage circuit comprising at least one variable resistor for adjusting the at least one compensation voltage; and at least one RC circuit coupled to the conversion resistor. 23. The mass spectrometer according to claim 22 , further comprising at least one of: a magnetic sector unit an electric sector unit, an array of Faraday cups, an ion source, or a mass filter.