2010-02-23 03:29:05 +08:00
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//-----------------------------------------------------------------------------
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//
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// Jonathan Westhues, April 2006
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//-----------------------------------------------------------------------------
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module hi_read_rx_xcorr(
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pck0, ck_1356meg, ck_1356megb,
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pwr_lo, pwr_hi, pwr_oe1, pwr_oe2, pwr_oe3, pwr_oe4,
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adc_d, adc_clk,
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ssp_frame, ssp_din, ssp_dout, ssp_clk,
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cross_hi, cross_lo,
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dbg,
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2015-06-18 21:30:56 +08:00
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xcorr_is_848, snoop
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2010-02-23 03:29:05 +08:00
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);
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input pck0, ck_1356meg, ck_1356megb;
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output pwr_lo, pwr_hi, pwr_oe1, pwr_oe2, pwr_oe3, pwr_oe4;
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input [7:0] adc_d;
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2016-03-13 14:18:04 +08:00
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output adc_clk, ssp_frame, ssp_din;
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2010-02-23 03:29:05 +08:00
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input ssp_dout;
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2016-03-13 14:18:04 +08:00
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output ssp_clk;
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2010-02-23 03:29:05 +08:00
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input cross_hi, cross_lo;
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output dbg;
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2015-06-18 21:30:56 +08:00
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input xcorr_is_848, snoop;
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2010-02-23 03:29:05 +08:00
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// Carrier is steady on through this, unless we're snooping.
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assign pwr_hi = ck_1356megb & (~snoop);
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assign pwr_oe1 = 1'b0;
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assign pwr_oe3 = 1'b0;
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assign pwr_oe4 = 1'b0;
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2015-06-22 00:00:42 +08:00
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wire adc_clk = ck_1356megb;
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reg fc_div_2;
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2015-06-18 21:30:56 +08:00
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always @(negedge ck_1356megb)
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fc_div_2 <= fc_div_2 + 1;
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2010-02-23 03:29:05 +08:00
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// When we're a reader, we just need to do the BPSK demod; but when we're an
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// eavesdropper, we also need to pick out the commands sent by the reader,
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// using AM. Do this the same way that we do it for the simulated tag.
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2015-06-12 13:43:00 +08:00
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reg after_hysteresis, after_hysteresis_prev, after_hysteresis_prev_prev;
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2010-02-23 03:29:05 +08:00
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reg [11:0] has_been_low_for;
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always @(negedge adc_clk)
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begin
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if(& adc_d[7:0]) after_hysteresis <= 1'b1;
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else if(~(| adc_d[7:0])) after_hysteresis <= 1'b0;
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if(after_hysteresis)
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begin
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has_been_low_for <= 7'b0;
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end
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else
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begin
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if(has_been_low_for == 12'd4095)
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begin
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has_been_low_for <= 12'd0;
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after_hysteresis <= 1'b1;
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end
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else
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has_been_low_for <= has_been_low_for + 1;
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end
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end
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// Let us report a correlation every 4 subcarrier cycles, or 4*16 samples,
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// so we need a 6-bit counter.
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reg [5:0] corr_i_cnt;
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// And a couple of registers in which to accumulate the correlations.
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2015-06-03 04:27:14 +08:00
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// we would add at most 32 times adc_d, the result can be held in 13 bits.
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// Need one additional bit because it can be negative as well
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reg signed [13:0] corr_i_accum;
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reg signed [13:0] corr_q_accum;
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2010-02-23 03:29:05 +08:00
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reg signed [7:0] corr_i_out;
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reg signed [7:0] corr_q_out;
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2015-06-12 13:43:00 +08:00
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// clock and frame signal for communication to ARM
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reg ssp_clk;
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reg ssp_frame;
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2015-06-22 00:00:42 +08:00
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always @(negedge adc_clk)
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begin
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if (xcorr_is_848 | fc_div_2)
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corr_i_cnt <= corr_i_cnt + 1;
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end
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2010-02-23 03:29:05 +08:00
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// ADC data appears on the rising edge, so sample it on the falling edge
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always @(negedge adc_clk)
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begin
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// These are the correlators: we correlate against in-phase and quadrature
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// versions of our reference signal, and keep the (signed) result to
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// send out later over the SSP.
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2015-06-23 03:45:28 +08:00
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if(corr_i_cnt == 6'd0)
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2010-02-23 03:29:05 +08:00
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begin
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if(snoop)
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2016-03-21 02:33:59 +08:00
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begin
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// Send only 7 most significant bits of tag signal (signed), LSB is reader signal:
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corr_i_out <= {corr_i_accum[13:7], after_hysteresis_prev_prev};
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corr_q_out <= {corr_q_accum[13:7], after_hysteresis_prev};
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after_hysteresis_prev_prev <= after_hysteresis;
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end
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2010-02-23 03:29:05 +08:00
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else
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2016-03-21 02:33:59 +08:00
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begin
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// 8 most significant bits of tag signal
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corr_i_out <= corr_i_accum[13:6];
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corr_q_out <= corr_q_accum[13:6];
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end
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2010-02-23 03:29:05 +08:00
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corr_i_accum <= adc_d;
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corr_q_accum <= adc_d;
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end
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else
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begin
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if(corr_i_cnt[3])
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corr_i_accum <= corr_i_accum - adc_d;
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else
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corr_i_accum <= corr_i_accum + adc_d;
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2015-06-12 13:43:00 +08:00
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if(corr_i_cnt[3] == corr_i_cnt[2]) // phase shifted by pi/2
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2010-02-23 03:29:05 +08:00
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corr_q_accum <= corr_q_accum + adc_d;
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2015-06-12 13:43:00 +08:00
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else
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corr_q_accum <= corr_q_accum - adc_d;
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2010-02-23 03:29:05 +08:00
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end
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// The logic in hi_simulate.v reports 4 samples per bit. We report two
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// (I, Q) pairs per bit, so we should do 2 samples per pair.
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2015-06-23 03:45:28 +08:00
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if(corr_i_cnt == 6'd32)
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2010-02-23 03:29:05 +08:00
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after_hysteresis_prev <= after_hysteresis;
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// Then the result from last time is serialized and send out to the ARM.
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// We get one report each cycle, and each report is 16 bits, so the
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// ssp_clk should be the adc_clk divided by 64/16 = 4.
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if(corr_i_cnt[1:0] == 2'b10)
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ssp_clk <= 1'b0;
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if(corr_i_cnt[1:0] == 2'b00)
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begin
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ssp_clk <= 1'b1;
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// Don't shift if we just loaded new data, obviously.
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if(corr_i_cnt != 7'd0)
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begin
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corr_i_out[7:0] <= {corr_i_out[6:0], corr_q_out[7]};
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corr_q_out[7:1] <= corr_q_out[6:0];
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end
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end
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2015-06-03 19:28:28 +08:00
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// set ssp_frame signal for corr_i_cnt = 0..3 and corr_i_cnt = 32..35
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2015-06-12 13:43:00 +08:00
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// (send two frames with 8 Bits each)
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2015-06-03 19:28:28 +08:00
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if(corr_i_cnt[5:2] == 4'b0000 || corr_i_cnt[5:2] == 4'b1000)
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2010-02-23 03:29:05 +08:00
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ssp_frame = 1'b1;
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else
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ssp_frame = 1'b0;
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end
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assign ssp_din = corr_i_out[7];
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assign dbg = corr_i_cnt[3];
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// Unused.
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assign pwr_lo = 1'b0;
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2015-06-12 13:43:00 +08:00
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assign pwr_oe2 = 1'b0;
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2010-02-23 03:29:05 +08:00
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endmodule
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