X-Git-Url: https://git.zerfleddert.de/cgi-bin/gitweb.cgi/proxmark3-svn/blobdiff_plain/6658905f18a1eebc148836f26c731dea9c1377dc..refs/pull/466/head:/fpga/lo_read.v

diff --git a/fpga/lo_read.v b/fpga/lo_read.v
index 9c3edb22..a6d077b9 100644
--- a/fpga/lo_read.v
+++ b/fpga/lo_read.v
@@ -1,102 +1,74 @@
-//-----------------------------------------------------------------------------
-// The way that we connect things in low-frequency read mode. In this case
-// we are generating the 134 kHz or 125 kHz carrier, and running the 
-// unmodulated carrier at that frequency. The A/D samples at that same rate,
-// and the result is serialized.
-//
-// Jonathan Westhues, April 2006
-//-----------------------------------------------------------------------------
-
-module lo_read(
-    pck0, ck_1356meg, ck_1356megb,
-    pwr_lo, pwr_hi, pwr_oe1, pwr_oe2, pwr_oe3, pwr_oe4,
-    adc_d, adc_clk,
-    ssp_frame, ssp_din, ssp_dout, ssp_clk,
-    cross_hi, cross_lo,
-    dbg,
-    lo_is_125khz
-);
-    input pck0, ck_1356meg, ck_1356megb;
-    output pwr_lo, pwr_hi, pwr_oe1, pwr_oe2, pwr_oe3, pwr_oe4;
-    input [7:0] adc_d;
-    output adc_clk;
-    input ssp_dout;
-    output ssp_frame, ssp_din, ssp_clk;
-    input cross_hi, cross_lo;
-    output dbg;
-    input lo_is_125khz;
-
-// The low-frequency RFID stuff. This is relatively simple, because most
-// of the work happens on the ARM, and we just pass samples through. The
-// PCK0 must be divided down to generate the A/D clock, and from there by
-// a factor of 8 to generate the carrier (that we apply to the coil drivers).
-//
-// This is also where we decode the received synchronous serial port words,
-// to determine how to drive the output enables.
-
-// PCK0 will run at (PLL clock) / 4, or 24 MHz. That means that we can do
-// 125 kHz by dividing by a further factor of (8*12*2), or ~134 kHz by
-// dividing by a factor of (8*11*2) (for 136 kHz, ~2% error, tolerable).
-
-reg [3:0] pck_divider;
-reg clk_lo;
-
-always @(posedge pck0)
-begin
-    if(lo_is_125khz)
-    begin
-        if(pck_divider == 4'd11)
-        begin
-            pck_divider <= 4'd0;
-            clk_lo = !clk_lo;
-        end
-        else
-            pck_divider <= pck_divider + 1;
-    end
-    else
-    begin
-        if(pck_divider == 4'd10)
-        begin
-            pck_divider <= 4'd0;
-            clk_lo = !clk_lo;
-        end
-        else
-            pck_divider <= pck_divider + 1;
-    end
-end
-
-reg [2:0] carrier_divider_lo;
-
-always @(posedge clk_lo)
-begin
-    carrier_divider_lo <= carrier_divider_lo + 1;
-end
-
-assign pwr_lo = carrier_divider_lo[2];
-
-// This serializes the values returned from the A/D, and sends them out
-// over the SSP.
-
-reg [7:0] to_arm_shiftreg;
-
-always @(posedge clk_lo)
-begin
-    if(carrier_divider_lo == 3'b000)
-        to_arm_shiftreg <= adc_d;
-    else
-        to_arm_shiftreg[7:1] <= to_arm_shiftreg[6:0];
-end
-
-assign ssp_clk = clk_lo;
-assign ssp_frame = (carrier_divider_lo == 3'b001);
-assign ssp_din = to_arm_shiftreg[7];
-
-// The ADC converts on the falling edge, and our serializer loads when
-// carrier_divider_lo == 3'b000.
-assign adc_clk = ~carrier_divider_lo[2];
-
-assign pwr_hi = 1'b0;
-
-assign dbg = adc_clk;
-
-endmodule
+//-----------------------------------------------------------------------------
+// The way that we connect things in low-frequency read mode. In this case
+// we are generating the unmodulated low frequency carrier.
+// The A/D samples at that same rate and the result is serialized.
+//
+// Jonathan Westhues, April 2006
+// iZsh <izsh at fail0verflow.com>, June 2014
+//-----------------------------------------------------------------------------
+
+module lo_read(
+	input pck0, input [7:0] pck_cnt, input pck_divclk,
+	output pwr_lo, output pwr_hi,
+	output pwr_oe1, output pwr_oe2, output pwr_oe3, output pwr_oe4,
+	input [7:0] adc_d, output adc_clk,
+	output ssp_frame, output ssp_din, output ssp_clk,
+	output dbg,
+	input lf_field
+);
+
+reg [7:0] to_arm_shiftreg;
+
+// this task also runs at pck0 frequency (24Mhz) and is used to serialize
+// the ADC output which is then clocked into the ARM SSP.
+
+// because pck_divclk always transitions when pck_cnt = 0 we use the
+// pck_div counter to sync our other signals off it
+// we read the ADC value when pck_cnt=7 and shift it out on counts 8..15
+always @(posedge pck0)
+begin
+	if((pck_cnt == 8'd7) && !pck_divclk)
+		to_arm_shiftreg <= adc_d;
+	else begin
+		to_arm_shiftreg[7:1] <= to_arm_shiftreg[6:0];
+		// simulation showed a glitch occuring due to the LSB of the shifter
+		// not being set as we shift bits out
+		// this ensures the ssp_din remains low after a transfer and suppresses
+		// the glitch that would occur when the last data shifted out ended in
+		// a 1 bit and the next data shifted out started with a 0 bit
+		to_arm_shiftreg[0] <= 1'b0;
+	end
+end
+
+// ADC samples on falling edge of adc_clk, data available on the rising edge
+
+// example of ssp transfer of binary value 1100101
+// start of transfer is indicated by the rise of the ssp_frame signal
+// ssp_din changes on the rising edge of the ssp_clk clock and is clocked into
+// the ARM by the falling edge of ssp_clk
+//             _______________________________
+// ssp_frame__|                               |__
+//             _______         ___     ___
+// ssp_din  __|       |_______|   |___|   |______
+//         _   _   _   _   _   _   _   _   _   _
+// ssp_clk  |_| |_| |_| |_| |_| |_| |_| |_| |_| |_
+
+// serialized SSP data is gated by ant_lo to suppress unwanted signal
+assign ssp_din = to_arm_shiftreg[7] && !pck_divclk;
+// SSP clock always runs at 24Mhz
+assign ssp_clk = pck0;
+// SSP frame is gated by ant_lo and goes high when pck_divider=8..15
+assign ssp_frame = (pck_cnt[7:3] == 5'd1) && !pck_divclk;
+// unused signals tied low
+assign pwr_hi = 1'b0;
+assign pwr_oe1 = 1'b0;
+assign pwr_oe2 = 1'b0;
+assign pwr_oe3 = 1'b0;
+assign pwr_oe4 = 1'b0;
+// this is the antenna driver signal
+assign pwr_lo = lf_field & pck_divclk;
+// ADC clock out of phase with antenna driver
+assign adc_clk = ~pck_divclk;
+// ADC clock also routed to debug pin
+assign dbg = adc_clk;
+endmodule