Device for operating passive infrared sensors

The invention claimed is: 1. A system for converting a differential analog signal into a digital signal comprising: first and second differential inputs; first and second differential outputs; a differential amplifier including: a first transistor including a first terminal, a second terminal and a third terminal, the first terminal being a first transistor control terminal and connected to the first differential input and the third terminal being connected to the first differential output; a second transistor including a fourth terminal, a fifth terminal and a sixth terminal, the fourth terminal being a second transistor control terminal and connected to the second differential input and the sixth terminal connected to the second differential output; a current divider including a reference current input, a control input, a first current divider output and a second current divider output, wherein the first current divider output is connected to the second terminal of the first transistor and the second current divider output is connected to the fifth terminal of the second transistor; a reference current source connected to the reference current input; a first load circuit connected to the first differential output; and a second load circuit connected to the second differential output; and a first integrating circuit connected to the first differential output, and configured to integrate a first differential output signal; a second integrating circuit connected to the second differential output, and configured to integrate a second differential output signal; a comparator including a first comparator input, a second comparator input and a comparator output, wherein the first comparator input is connected to the first differential output and the second comparator input is connected to the second differential output; and a digital integrator having a digital integrator input and a digital integrator output, wherein the digital integrator input is driven by the comparator output; wherein: a value of a current divider control signal driving the current divider control input depends from the first digital integrator output. 2. The system of claim 1 , wherein: the first and second load circuits include respectively first and second load resistors configured to provide a load to the respective first and second differential outputs. 3. The system of claim 1 , wherein: the first and second load circuits include respectively first and second load current sources configured to provide a load to the respective first and second differential outputs. 4. The system of claim 1 ; wherein the current divider further includes: a resistor string including a plurality of resistors arranged in a series configuration including a plurality of taps, the plurality of taps including the first current divider output on a first end of the resistor string, the second current divider output on a second end of the resistor string, and a plurality of middle taps arranged respectively between pairs of adjacent resistors in the resistor string; and an analog multiplexer arranged to connect one of the plurality of taps to the reference current input, the one of the plurality of taps selected based on the value of the current divider control signal. 5. The system of claim 1 , wherein: the first and second integrating circuits include respectively first and second integrated filters. 6. The system of claim 1 , wherein: the first and second integrating circuits include respectively first and second integration capacitors. 7. The system of claim 1 ; wherein: the digital integrator includes an up/down counter; and a value of the comparator output controls a direction of counting of the up/down counter. 8. The system of claim 7 , wherein: a rate of at least one of incrementing and decrementing the up/down counter is predetermined. 9. The system of claim 8 , wherein the digital integrator control input enables an incrementing or decrementing of the up/down counter in a first state and disables the incrementing or decrementing of the up/down counter in a second state. 10. The system of claim 7 , wherein: a rate of at least one of incrementing and decrementing the up/down counter is programmable. 11. The system of claim 1 , further comprising: a digital filter having a digital filter input and a digital filter output; wherein: the digital integrator output is coupled to the digital filter input of the digital filter. 12. The system of claim 1 , wherein the digital integrator input enables an integration by the digital integrator in a first state and disables the integration of the digital integrator in a second state. 13. A system for converting a differential analog signal into a digital signal comprising: first and second differential inputs; first and second differential outputs; a differential amplifier including: a first transistor including a first terminal, a second terminal and a third terminal, the first input terminal being a first transistor control terminal and connected to the first differential input and the third terminal being connected to the first differential output; a second transistor including a fourth terminal, a fifth terminal and a sixth terminal, the fourth terminal being a second transistor control terminal and connected to the second differential input and the sixth terminal connected to the second differential output; a current divider including a reference current input, a control input, a first current divider output and a second current divider output, wherein the first current divider output is connected to the second terminal of the first transistor and the second current divider output is connected to the fifth terminal of the second transistor; a reference current source connected to the reference current input; a first load circuit connected to the first differential output; and a second load circuit connected to the second differential output; and a first integrating circuit connected to the first differential output; a second integrating circuit connected to the second differential output; a comparator including a first comparator input, a second comparator input and a comparator output, wherein the first comparator input is driven at least indirectly by the first differential output and the second comparator input is driven at least indirectly by the second differential output; and a digital integrator having a digital integrator input and a digital integrator output, wherein the digital integrator input is driven by the comparator output; wherein: a value of a current divider control signal driving the current divider control input depends at least indirectly from the digital integrator output. 14. The system of claim 13 ; wherein the current divider further includes: a resistor string including a plurality of resistors arranged in a series configuration including a plurality of taps, the plurality of taps including the first current divider output on a first end of the resistor string, the second current divider output on a second end of the resistor string, and a plurality of middle taps arranged respectively between pairs of adjacent resistors in the resistor string; and an analog multiplexer arranged to connect one of the plurality of taps to the reference current input, the one of the plurality of taps selected based on the value of the current divider control signal.