in my recent CPLD design I implemented a frequency counter with an SPI slave interface. The SPI master MCU reads out the counter after it is signalled by a DRDY pin. My counter updates the DRDY signal by flipping it (DRDY <=~DRDY) but it requires both edges pin interrupt sensitivity at the MCU side. I'd like to implement it more universally, like the typical ADC chip data ready signal behaviour, which is: a rising edge, held for x clocks then a falling edge. I thought it should be easy however I stucked in conditional loops as a beginner in Verilog.
Here is my code so far:
module ec2(INP, RST, SR, DRDY, DRDY2, DRDY3); input INP, RST, SR; output reg DRDY2, DRDY3;//LEDs for verification/testing purposes output reg DRDY; reg [23:0] Q; event data_ready; always @(posedge INP or negedge RST) begin if(!RST) begin Q <= 24'd0; end else if( (Q == 24'd1000000 && SR) || (Q == 24'd500000 && !SR)) begin Q <= 24'd0; ->data_ready; DRDY2 <=~DRDY2; end else begin Q <= Q + 1; end end always @(data_ready) begin DRDY=1'b1; //wait for 10ms? DRDY=1'b0; DRDY3 = DRDY2; end endmodule