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[/] [i2cslave/] [trunk/] [rtl/] [i2cSlave_define.v] - Rev 5
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// ----------------------- i2cSlave_define.v -------------------- // stream states `define STREAM_IDLE 2'b00 `define STREAM_READ 2'b01 `define STREAM_WRITE_ADDR 2'b10 `define STREAM_WRITE_DATA 2'b11 // start stop detection states `define NULL_DET 2'b00 `define START_DET 2'b01 `define STOP_DET 2'b10 // i2c ack and nak `define I2C_NAK 1'b1 `define I2C_ACK 1'b0 // ---------------------------------------------------------------- // ------------- modify constants below this line ----------------- // ---------------------------------------------------------------- // i2c device address `define I2C_ADDRESS 7'h3c // System clock frequency in MHz // If you are using a clock frequency below 24MHz, then the macro // for SDA_DEL_LEN will result in compile errors for i2cSlave.v // you will need to hand tweak the SDA_DEL_LEN constant definition `define CLK_FREQ 48 // Debounce SCL and SDA over this many clock ticks // The rise time of SCL and SDA can be up to 1000nS (in standard mode) // so it is essential to debounce the inputs. // The spec requires 0.05V of hysteresis, but in practise // simply debouncing the inputs is sufficient // I2C spec requires suppresion of spikes of // maximum duration 50nS, so this debounce time should be greater than 50nS // Also increases data hold time and decreases data setup time // during an I2C read operation // 10 ticks = 208nS @ 48MHz `define DEB_I2C_LEN (10*`CLK_FREQ)/48 // Delay SCL for use as internal sampling clock // Using delayed version of SCL to ensure that // SDA is stable when it is sampled. // Not entirely citical, as according to I2C spec // SDA should have a minimum of 100nS of set up time // with respect to SCL rising edge. But with the very slow edge // speeds used in I2C it is better to err on the side of caution. // This delay also has the effect of adding extra hold time to the data // with respect to SCL falling edge. I2C spec requires 0nS of data hold time. // 10 ticks = 208nS @ 48MHz `define SCL_DEL_LEN (10*`CLK_FREQ)/48 // Delay SDA for use in start/stop detection // Use delayed SDA during start/stop detection to avoid // incorrect detection at SCL falling edge. // From I2C spec start/stop setup is 600nS with respect to SCL rising edge // and start/stop hold is 600nS wrt SCL falling edge. // So it is relatively easy to discriminate start/stop, // but data setup time is a minimum of 100nS with respect to SCL rising edge // and 0nS hold wrt to SCL falling edge. // So the tricky part is providing robust start/stop detection // in the presence of regular data transitions. // This delay time should be less than 100nS // 4 ticks = 83nS @ 48MHz `define SDA_DEL_LEN (4*`CLK_FREQ)/48