Low noise front end for pulsed input system
First Claim
Patent Images
1. A method of operating a pulsed input system, the method comprising:
- receiving a pulsed analog signal carrying a signal of interest;
amplifying the received pulsed signal using an amplifier to form an amplified pulsed signal having a high side and a low side;
sampling the amplified pulsed signal of the high side and the low side at a pulse rate of each pulse and at a first sample duration to form a first sampled signal;
sampling the amplified pulsed signal of the high side and the low side at a pulse rate of each pulse and at a first sample duration to form a second sampled signal;
filtering the first input sampled signal that transitions between the high side and the low side;
filtering the first sampled signal that transitions between the high side and the low side;
sampling the filtered first input sample signal at an intermediate output sample rate and an output sample duration to form a first sampled intermediate output signal having a high side and a low side;
sampling the filtered second sample signal at the inner output sample rate and the output sample duration to form a second intermediate sampled output signal having a high side and a low side,wherein an output of each intermediate sampling is conveyed to an inverting and non-inverting input of analog to digital converter, andconverting the first and second sampled intermediate output signals to a digital output signal using an analog to digital converter.
1 Assignment
0 Petitions
Accused Products
Abstract
Embodiments of the invention provide a pulsed signal detection system with reduced noise bandwidth in the frontend. Analog to digital conversion speed is decoupled from the pulsed duty cycle timing. This in turn reduces the power consumption of the ADC and the front end while providing a high dynamic range. The ADC may be a continuous time sigma delta converter to reduce the drive requirements of the front end.
-
Citations
20 Claims
-
1. A method of operating a pulsed input system, the method comprising:
-
receiving a pulsed analog signal carrying a signal of interest; amplifying the received pulsed signal using an amplifier to form an amplified pulsed signal having a high side and a low side; sampling the amplified pulsed signal of the high side and the low side at a pulse rate of each pulse and at a first sample duration to form a first sampled signal; sampling the amplified pulsed signal of the high side and the low side at a pulse rate of each pulse and at a first sample duration to form a second sampled signal; filtering the first input sampled signal that transitions between the high side and the low side; filtering the first sampled signal that transitions between the high side and the low side; sampling the filtered first input sample signal at an intermediate output sample rate and an output sample duration to form a first sampled intermediate output signal having a high side and a low side; sampling the filtered second sample signal at the inner output sample rate and the output sample duration to form a second intermediate sampled output signal having a high side and a low side, wherein an output of each intermediate sampling is conveyed to an inverting and non-inverting input of analog to digital converter, and converting the first and second sampled intermediate output signals to a digital output signal using an analog to digital converter. - View Dependent Claims (2, 3, 4, 5, 6, 7)
-
-
8. A system comprising a pulsed input signal detector, where the pulsed input signal detector comprises:
-
a receiver configured to receive a pulsed analog signal carrying a signal of interest; an amplifier coupled to an output of the receiver, the amplifier having a high side and a low side both coupled to an output of the receiver, the amplifier also having a high side and a low side output; a plurality of sampling modules coupled to an output of the amplifier; a plurality of filtering modules, wherein each filtering module is coupled to an output of its corresponding sampling module;
wherein each filtering module includes a resistor and capacitor;a plurality of second sampling modules, each sampling module coupled to an output of its own filtering module, the output of each filtering module having a high side and a low side; and an analog to digital converter coupled to an output of each of the second sampling modules, each input of the analog to digital converter having a high side and a low side input, wherein an output of each second sampling module is coupled to both a positive and negative input of analog to digital converter. - View Dependent Claims (9, 10)
-
-
11. A system comprising a pulsed input signal detector, where the pulsed input signal detector comprises:
-
means for receiving a pulsed analog signal carrying a signal of interest; means for amplifying the received pulsed signal using an amplifier to form an amplified pulsed signal, the means for amplifying the having a high side and a low side both coupled to an output of the receiver, the means for amplifying also having a high side and a low side output; means for sampling the amplified pulsed signal at a pulse rate of each pulse and at a first sample duration to form a first sampled signal; means for sampling the amplified pulsed signal of the high side and the low side at a pulse rate of each pulse and at a first sample duration to form a second sampled signal; means for filtering the first input sampled signal, the output of the means for filtering having a high side and a low side; and
;means for filtering the first sampled signals that transitions between the high side and the low side; means for sampling the filtered first input sample signal at an intermediate output sample rate and an output sample duration to form a first sampled intermediate output signal; means for sampling the filtered second sample signal at the inner output sample rate and the output sample duration to form a second intermediate sampled output signal having a high side and a low side, wherein an output of each intermediate sampling is conveyed to an inverting and non-inverting input of analog to digital converter, and means for converting the second sampled signal to a digital output signal, the means for converting having a high side and low side input. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 20)
-
Specification