Current-Mode Matched Filter Architecture For Signal Acquisition

What is claimed is: 1 . A matched filter, comprising: a plurality of correlator cells are configured to receive a digital signal and are arranged so that values of the digital signal can be shifted amongst the plurality of correlator cells, the plurality of correlator cells are interconnected by a common wire, each correlator cell includes a data store, a correlator circuit, and a current source, wherein the data store stores one value of a known pattern, wherein the correlator circuit is configured to receive a value from the digital signal and operates to correlate the value of the digital signal with the value of the known pattern, wherein the current source is configured to selectively source current to the common wire based on the correlation operation performed by the correlator circuit, and an output circuit coupled at a common node to each of the plurality of correlator cell and operates to generate an output which is correlated to current that is being sourced collectively by the current sources. 2 . The matched filter of claim 1 wherein the data store is implemented with a register, the correlator circuit is implemented with an XOR gate, and the current source is implemented by a transistor. 3 . The matched filter of claim 1 further comprises a current switch is interposed between the current source and the common wire and selectively enables the current source to source current based on the correlation operation performed by the correlator circuit. 4 . The matched filter of claim 3 wherein the current switch is implemented by a transistor that is interfaced with the correlator circuit to selectively turn on the source current. 5 . The matched filter of claim 1 wherein the output circuit operates to maintain voltage at the common node constant. 6 . The matched filter of claim 5 wherein the output circuit is further defined as at least one of an operational amplifier or an operational transconductance amplifier. 7 . The matched filter of claim 1 wherein the output circuit includes a reset circuit electrically coupled to the common node and operates to set voltage at the common node to a predefined value; and a read circuit electrically coupled to the common node and operates to measure voltage at the common node. 8 . The matched filter of claim 1 further comprises a shifted data store that stores one value of the digital signal. 9 . The matched filter of claim 1 wherein the data store stores one value of the digital signal and the shifted data store stores one value of the known pattern. 10 . A signal processing apparatus for performing pattern matching, comprising: a plurality of correlator cells interconnected by a common wire and configured to receive an RF signal, each correlator cell includes a correlator circuit, a stored data store, a shifted data store, and a current source circuit, wherein the shifted data store stores one value from either the RF signal or a known pattern, and the stored data store stores one value from the other of the RF signal or the known pattern, wherein the correlator circuit is configured to receive the value from shifted data store and the value from the stored data store and operates to correlate the value from the shifted data store with the value from the stored data store, wherein the current source circuit is interfaced with the correlator circuit and outputs a current onto the common wire in accordance with the correlation between the value from the shifted data store and the value from the stored data store, such that current is output onto the common wire when the value from the shifted data store and the value from the stored data store match and current is not output onto the common wire when the value from the shifted data store and the value from the stored data store match do not match or vice versa; and an output circuit coupled at a common node to each of the plurality of correlator cells and operates to generate an output which is indicative of quantity of current that is being source collectively from the plurality of correlator cells. 11 . The signal processing apparatus of claim 10 wherein the current source circuit is implemented by a current source that selectively sources current onto the common wire and a transistor interfaced with the correlation circuit to selectively turn on the current source in accordance with input from the correlation circuit. 12 . The signal processing apparatus of claim 10 wherein the shifted data store and the stored data store are implemented by latch circuits, such that a first shifted latch circuit stores a value from a known pattern and a first stored latch circuit stores a sample from the RF signal. 13 . The signal processing apparatus of claim 12 wherein shifted data store further includes a second shifted latch circuit that stores a value from a second known pattern which differs from the known pattern. 14 . The signal processing apparatus of claim 13 further comprises a multiplexer interfaced between the correlator circuit and the first shifted latch circuit and the second shifted latch circuit to enable selection of one of the first shifted latch circuit and the second shifted latch circuit. 15 . The signal processing apparatus of claim 14 wherein the stored data store is configured to store four or more samples of the RF signal. 16 . The signal processing apparatus of claim 15 further includes a selection circuit interfaced between the correlator circuit and the stored data store and operable to select one of the samples of the RF signal to be input to the correlator circuit. 17 . The signal processing apparatus of claim 16 wherein the current source circuit include three circuit paths coupled in parallel with each other, each of the three circuit paths having at least one transistor interface with the correlator circuit, and the correlator circuit selectively turns on transistors in the three circuit paths in accordance with the correlation result. 18 . The signal processing apparatus of claim 10 wherein the output circuit operates to maintain voltage at the common node constant. 19 . The signal processing apparatus of claim 18 wherein the output circuit is further defined as at least one of an operational amplifier or an operational transconductance amplifier. 20 . The signal processing apparatus of claim 10 wherein the output circuit includes a reset circuit electrically coupled to the common node and operates to set voltage at the common node to a predefined value; and a read circuit electrically coupled to the common node and operates to measure voltage at the common node. 21 . A signal processing apparatus for acquiring spread spectrum signals, comprising: a plurality of correlator cells interconnected by a common wire and configured to receive an RF signal, each correlator cell includes a correlator circuit, a stored data store, a shifted data store, and a current source circuit, wherein the shifted data store stores one value from either the RF signal or a known spread sequence code, and the stored data store stores one value from the other of the RF signal or the known spread sequence code, wherein the correlator circuit is configured to receive the value from shifted data store and the value from the stored data store and operates to correlate the value from the shifted data store with the value from the stored data store, wherein the current source circuit is interfaced with the correlator circuit and outputs a cur