axi_adc_trigger: Fix two sample offset
When using a non-maximum sampling rate the data is captured earlier by two samples. After the initial trigger jitter fix, a low latency/utilization was desired(one sample delay for the trigger detection). After adding the instrument trigger an equal latency between ADC and LA was required, hence the need for a two sample delay on the trigger path. The delay was implemented as two clock cycle delays not two sample delays. This commit fixes this issue and offers a more robust design.main
AndreiGrozav
AndreiGrozav
parent
d844167850
commit
e0813d49b6
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@ -137,10 +137,6 @@ module axi_adc_trigger #(
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wire comp_low_a_s; // signal is over the limit
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wire comp_low_b_s; // signal is over the limit
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wire passthrough_high_a_s; // trigger when rising through the limit
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wire passthrough_low_a_s; // trigger when fallingh thorugh the limit
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wire passthrough_high_b_s; // trigger when rising through the limit
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wire passthrough_low_b_s; // trigger when fallingh thorugh the limit
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wire trigger_a_fall_edge;
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wire trigger_a_rise_edge;
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wire trigger_b_fall_edge;
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@ -164,16 +160,20 @@ module axi_adc_trigger #(
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reg trigger_b_d3;
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reg comp_high_a; // signal is over the limit
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reg old_comp_high_a; // t + 1 version of comp_high_a
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reg first_a_h_trigger; // valid hysteresis range on passthrough high trigger limit
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reg first_a_l_trigger; // valid hysteresis range on passthrough low trigger limit
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reg hyst_high_limit_pass_a; // valid hysteresis range on passthrough high trigger limit
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reg hyst_low_limit_pass_a; // valid hysteresis range on passthrough low trigger limit
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reg signed [DW:0] hyst_a_high_limit;
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reg signed [DW:0] hyst_a_low_limit;
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reg comp_high_b; // signal is over the limit
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reg old_comp_high_b; // t + 1 version of comp_high_b
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reg first_b_h_trigger; // valid hysteresis range on passthrough high trigger limit
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reg first_b_l_trigger; // valid hysteresis range on passthrough low trigger limit
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reg hyst_high_limit_pass_b; // valid hysteresis range on passthrough high trigger limit
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reg hyst_low_limit_pass_b; // valid hysteresis range on passthrough low trigger limit
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reg signed [DW:0] hyst_b_high_limit;
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reg signed [DW:0] hyst_b_low_limit;
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reg passthrough_high_a; // trigger when rising through the limit
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reg passthrough_low_a; // trigger when fallingh thorugh the limit
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reg passthrough_high_b; // trigger when rising through the limit
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reg passthrough_low_b; // trigger when fallingh thorugh the limit
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reg trigger_pin_a;
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reg trigger_pin_b;
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@ -422,22 +422,22 @@ module axi_adc_trigger #(
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endcase
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end
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always @(posedge clk) begin
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always @(*) begin
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case(function_a)
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2'h0: trigger_adc_a = comp_low_a_s;
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2'h1: trigger_adc_a = comp_high_a;
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2'h2: trigger_adc_a = passthrough_high_a_s;
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2'h3: trigger_adc_a = passthrough_low_a_s;
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2'h2: trigger_adc_a = passthrough_high_a;
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2'h3: trigger_adc_a = passthrough_low_a;
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default: trigger_adc_a = comp_low_a_s;
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endcase
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end
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always @(posedge clk) begin
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always @(*) begin
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case(function_b)
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2'h0: trigger_adc_b = comp_low_b_s;
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2'h1: trigger_adc_b = comp_high_b;
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2'h2: trigger_adc_b = passthrough_high_b_s;
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2'h3: trigger_adc_b = passthrough_low_b_s;
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2'h2: trigger_adc_b = passthrough_high_b;
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2'h3: trigger_adc_b = passthrough_low_b;
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default: trigger_adc_b = comp_low_b_s;
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endcase
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end
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@ -483,55 +483,85 @@ module axi_adc_trigger #(
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end
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always @(posedge clk) begin
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if (data_valid_a == 1'b1) begin
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hyst_a_high_limit <= limit_a_cmp + hysteresis_a[DW:0];
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hyst_a_low_limit <= limit_a_cmp - hysteresis_a[DW:0];
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if (reset == 1'b1) begin
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comp_high_a <= 1'b0;
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old_comp_high_a <= 1'b0;
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passthrough_high_a <= 1'b0;
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passthrough_low_a <= 1'b0;
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hyst_a_high_limit <= {DW{1'b0}};
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hyst_a_low_limit <= {DW{1'b0}};
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hyst_high_limit_pass_a <= 1'b0;
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hyst_low_limit_pass_a <= 1'b0;
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end else begin
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if (data_valid_a == 1'b1) begin
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hyst_a_high_limit <= limit_a_cmp + hysteresis_a[DW:0];
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hyst_a_low_limit <= limit_a_cmp - hysteresis_a[DW:0];
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if (data_a_cmp >= limit_a_cmp) begin
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comp_high_a <= 1'b1;
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end else begin
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comp_high_a <= 1'b0;
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end
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if (data_a_cmp >= limit_a_cmp) begin
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comp_high_a <= 1'b1;
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first_a_h_trigger <= passthrough_high_a_s ? 0 : first_a_h_trigger;
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if (data_a_cmp > hyst_a_high_limit) begin
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first_a_l_trigger <= 1'b1;
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hyst_low_limit_pass_a <= 1'b1;
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end else begin
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hyst_low_limit_pass_a <= (passthrough_low_a) ? 1'b0 : hyst_low_limit_pass_a;
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end
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end else begin
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comp_high_a <= 1'b0;
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first_a_l_trigger <= (passthrough_low_a_s) ? 0 : first_a_l_trigger;
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if (data_a_cmp < hyst_a_low_limit) begin
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first_a_h_trigger <= 1'b1;
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hyst_high_limit_pass_a <= 1'b1;
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end else begin
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hyst_high_limit_pass_a <= passthrough_high_a ? 1'b0 : hyst_high_limit_pass_a;
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end
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old_comp_high_a <= comp_high_a;
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passthrough_high_a <= !old_comp_high_a & comp_high_a & hyst_high_limit_pass_a;
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passthrough_low_a <= old_comp_high_a & !comp_high_a & hyst_low_limit_pass_a;
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end
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old_comp_high_a <= comp_high_a;
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end
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end
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assign passthrough_high_a_s = !old_comp_high_a & comp_high_a & first_a_h_trigger;
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assign passthrough_low_a_s = old_comp_high_a & !comp_high_a & first_a_l_trigger;
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assign comp_low_a_s = !comp_high_a;
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always @(posedge clk) begin
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if (data_valid_b == 1'b1) begin
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hyst_b_high_limit <= limit_b_cmp + hysteresis_b[DW:0];
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hyst_b_low_limit <= limit_b_cmp - hysteresis_b[DW:0];
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if (reset == 1'b1) begin
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comp_high_b <= 1'b0;
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old_comp_high_b <= 1'b0;
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passthrough_high_b <= 1'b0;
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passthrough_low_b <= 1'b0;
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hyst_b_high_limit <= {DW{1'b0}};
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hyst_b_low_limit <= {DW{1'b0}};
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hyst_high_limit_pass_b <= 1'b0;
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hyst_low_limit_pass_b <= 1'b0;
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end else begin
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if (data_valid_b == 1'b1) begin
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hyst_b_high_limit <= limit_b_cmp + hysteresis_b[DW:0];
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hyst_b_low_limit <= limit_b_cmp - hysteresis_b[DW:0];
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if (data_b_cmp >= limit_b_cmp) begin
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comp_high_b <= 1'b1;
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end else begin
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comp_high_b <= 1'b0;
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end
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if (data_b_cmp >= limit_b_cmp) begin
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comp_high_b <= 1'b1;
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first_b_h_trigger <= (passthrough_high_b_s == 1) ? 0 : first_b_h_trigger;
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if (data_b_cmp > hyst_b_high_limit) begin
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first_b_l_trigger <= 1'b1;
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hyst_low_limit_pass_b <= 1'b1;
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end else begin
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hyst_low_limit_pass_b <= (passthrough_low_b) ? 1'b0 : hyst_low_limit_pass_b;
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end
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end else begin
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comp_high_b <= 1'b0;
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first_b_l_trigger <= (passthrough_low_b_s == 1) ? 0 : first_b_l_trigger;
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if (data_b_cmp < hyst_b_low_limit) begin
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first_b_h_trigger <= 1'b1;
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hyst_high_limit_pass_b <= 1'b1;
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end else begin
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hyst_high_limit_pass_b <= passthrough_high_b ? 1'b0 : hyst_high_limit_pass_b;
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end
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old_comp_high_b <= comp_high_b;
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passthrough_high_b <= !old_comp_high_b & comp_high_b & hyst_high_limit_pass_b;
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passthrough_low_b <= old_comp_high_b & !comp_high_b & hyst_low_limit_pass_b;
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end
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old_comp_high_b <= comp_high_b;
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end
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end
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assign passthrough_high_b_s = !old_comp_high_b & comp_high_b & first_b_h_trigger;
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assign passthrough_low_b_s = old_comp_high_b & !comp_high_b & first_b_l_trigger;
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assign comp_low_b_s = !comp_high_b;
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axi_adc_trigger_reg adc_trigger_registers (
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