Lidar system, a method for a lidar system and a receiver for lidar system having first and second converting elements

What is claimed is: 1 . A receiver for a light detection and ranging (LIDAR) system, the receiver comprising: a plurality of detecting elements, each detecting element comprising one or more members configured to convert light into an electric signal, each detecting element configured to generate an analog detection signal in response to a laser pulse emitted by a transmitter of the LIDAR system; a first converting element configured to generate a first digital detection signal in response to a first analog detection signal provided by at least a first one of the plurality of detecting elements, wherein the first converting element is configured to generate the first digital detection signal having a first number of bits that represent the first analog detection signal; a second converting element configured to generate a second digital detection signal in response to a second analog detection signal provided by at least a second one of the plurality of detecting elements, wherein the second converting element is configured to generate the second digital detection signal having a second number of bits that represent the second analog detection signal, the second number of bits being greater than the first number of bits, wherein the first one of the plurality of detecting elements and the second one of the plurality of detecting elements are same or different detecting elements; and at least one processor configured to determine at least a first parameter of an object in a target area of the LIDAR system using the first digital detection signal and determine a second parameter of the object using the second digital detection signal. 2 . The receiver of claim 1 , wherein the first digital detection signal is a one bit signal, the first converting element is a comparator using one bit to represent the first analog detection signal, the second digital detection signal is a two or more bit signal, and the second converting element is an analog to digital converter using two or more bits to represent the second analog detection signal. 3 . The receiver of claim 1 , wherein the first analog detection signal and the second analog detection signal are provided by the same one of the plurality of detecting elements such that the first one of the plurality of detecting elements and the second one of the plurality of detecting elements are the same detecting element. 4 . The receiver of claim 1 , wherein: the receiver further comprises a first multiplexer coupled to a first subset of detecting elements comprising two or more of the plurality of detecting elements and configured to receive analog detection signals from the first subset of detecting elements and selectively output one of the analog detection signals received from the first subset of detecting elements as the first analog detection signal provided to the first converting element. 5 . The receiver of claim 4 , wherein: the receiver further comprises a second multiplexer coupled to a second subset of detecting elements comprising two or more of the plurality of detecting elements and configured to receive analog detection signals from the second subset of detecting elements and selectively output one of the analog detection signals received from the second subset of detecting elements as the second analog detection signal provided to the second converting element. 6 . The receiver of claim 5 , wherein: the first subset of detecting elements and the second subset of detecting elements comprise the same ones of the plurality of detecting elements. 7 . The receiver of claim 5 , wherein: the second multiplexer is configured to, for each laser pulse of a plurality of laser pulses emitted during a measurement period to a location in the target area, selectively output a different one of the analog detection signals received from the second subset of detecting elements as the second analog detection signal provided to the second converting element. 8 . The receiver of claim 4 , wherein: the first multiplexer is configured to, for each laser pulse of a plurality of laser pulses emitted during a measurement period to a location in the target area, switch which of the analog detection signals received from the first subset of detecting elements is output as the first analog detection signal provided to the first converting element. 9 . The receiver of claim 5 , wherein: the second multiplexer is configured to, for each laser pulse of a plurality of laser pulses emitted during a measurement period to a location in the target area, switch which of the analog detection signals received from the second subset of detecting elements is output as the second analog detection signal provided to the second converting element. 10 . The receiver of claim 8 , wherein: the receiver further comprises: a selection circuit configured to select which of the analog detection signals received from the first subset of detecting elements is output by the first multiplexer as the first analog detection signal provided to the first converting element based on a region of interest in the target area of the LIDAR system. 11 . The receiver of claim 10 , wherein: the selection circuit is configured to determine the region of interest using at least one of a previous first digital detection signals or a previous second digital detection signal. 12 . The receiver of claim 8 , wherein: the first converting element is configured to generate a plurality of first digital detection signals corresponding to the analog detection signals received from the first subset of detecting elements during the measurement period, and the at least one processor is configured to calculate an average of the plurality of first digital detection signals. 13 . The receiver of claim 7 , wherein: the plurality of laser pulses emitted during the measurement period comprises two or more laser pulses emitted for a single angle setting of the LIDAR system. 14 . The receiver of claim 5 , wherein: the second multiplexer is configured to, during a measurement duration associated with a single laser pulse emitted to a location in the target area, switch which of the analog detection signals received from the second subset of detecting elements is output as the second analog detection signal provided to the second converting element. 15 . The receiver of claim 14 , wherein: the receiver further comprises a selection circuit configured to select which of the analog detection signals received from the second subset of detecting elements is output by the second multiplexer as the second analog detection signal provided to the second converting element based on at least one of a previous first digital detection signals, a previous second digital detection signal, or the first digital detection signal. 16 . The receiver of claim 1 , wherein: the second parameter is a reflectivity parameter, and the at least one processor is configured to use the first digital detection signal in the determining the reflectivity parameter. 17 . The receiver of claim 1 , wherein: the first parameter is a detection parameter or a ranging parameter, and the at least one processor is configured to use the second digital detection signal in the determining the first parameter. 18 . The receiver of claim 1 , wherein: the receiver further comprises at least one analog low-pass filter arranged upstream from the second converting element, wherein the analog low-pass filter is configured to low-pass filter the second analog detecti